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What is Problem Solving? (Steps, Techniques, Examples)

By Status.net Editorial Team on May 7, 2023 — 5 minutes to read

What Is Problem Solving?

Definition and importance.

Problem solving is the process of finding solutions to obstacles or challenges you encounter in your life or work. It is a crucial skill that allows you to tackle complex situations, adapt to changes, and overcome difficulties with ease. Mastering this ability will contribute to both your personal and professional growth, leading to more successful outcomes and better decision-making.

Problem-Solving Steps

The problem-solving process typically includes the following steps:

  • Identify the issue : Recognize the problem that needs to be solved.
  • Analyze the situation : Examine the issue in depth, gather all relevant information, and consider any limitations or constraints that may be present.
  • Generate potential solutions : Brainstorm a list of possible solutions to the issue, without immediately judging or evaluating them.
  • Evaluate options : Weigh the pros and cons of each potential solution, considering factors such as feasibility, effectiveness, and potential risks.
  • Select the best solution : Choose the option that best addresses the problem and aligns with your objectives.
  • Implement the solution : Put the selected solution into action and monitor the results to ensure it resolves the issue.
  • Review and learn : Reflect on the problem-solving process, identify any improvements or adjustments that can be made, and apply these learnings to future situations.

Defining the Problem

To start tackling a problem, first, identify and understand it. Analyzing the issue thoroughly helps to clarify its scope and nature. Ask questions to gather information and consider the problem from various angles. Some strategies to define the problem include:

  • Brainstorming with others
  • Asking the 5 Ws and 1 H (Who, What, When, Where, Why, and How)
  • Analyzing cause and effect
  • Creating a problem statement

Generating Solutions

Once the problem is clearly understood, brainstorm possible solutions. Think creatively and keep an open mind, as well as considering lessons from past experiences. Consider:

  • Creating a list of potential ideas to solve the problem
  • Grouping and categorizing similar solutions
  • Prioritizing potential solutions based on feasibility, cost, and resources required
  • Involving others to share diverse opinions and inputs

Evaluating and Selecting Solutions

Evaluate each potential solution, weighing its pros and cons. To facilitate decision-making, use techniques such as:

  • SWOT analysis (Strengths, Weaknesses, Opportunities, Threats)
  • Decision-making matrices
  • Pros and cons lists
  • Risk assessments

After evaluating, choose the most suitable solution based on effectiveness, cost, and time constraints.

Implementing and Monitoring the Solution

Implement the chosen solution and monitor its progress. Key actions include:

  • Communicating the solution to relevant parties
  • Setting timelines and milestones
  • Assigning tasks and responsibilities
  • Monitoring the solution and making adjustments as necessary
  • Evaluating the effectiveness of the solution after implementation

Utilize feedback from stakeholders and consider potential improvements. Remember that problem-solving is an ongoing process that can always be refined and enhanced.

Problem-Solving Techniques

During each step, you may find it helpful to utilize various problem-solving techniques, such as:

  • Brainstorming : A free-flowing, open-minded session where ideas are generated and listed without judgment, to encourage creativity and innovative thinking.
  • Root cause analysis : A method that explores the underlying causes of a problem to find the most effective solution rather than addressing superficial symptoms.
  • SWOT analysis : A tool used to evaluate the strengths, weaknesses, opportunities, and threats related to a problem or decision, providing a comprehensive view of the situation.
  • Mind mapping : A visual technique that uses diagrams to organize and connect ideas, helping to identify patterns, relationships, and possible solutions.

Brainstorming

When facing a problem, start by conducting a brainstorming session. Gather your team and encourage an open discussion where everyone contributes ideas, no matter how outlandish they may seem. This helps you:

  • Generate a diverse range of solutions
  • Encourage all team members to participate
  • Foster creative thinking

When brainstorming, remember to:

  • Reserve judgment until the session is over
  • Encourage wild ideas
  • Combine and improve upon ideas

Root Cause Analysis

For effective problem-solving, identifying the root cause of the issue at hand is crucial. Try these methods:

  • 5 Whys : Ask “why” five times to get to the underlying cause.
  • Fishbone Diagram : Create a diagram representing the problem and break it down into categories of potential causes.
  • Pareto Analysis : Determine the few most significant causes underlying the majority of problems.

SWOT Analysis

SWOT analysis helps you examine the Strengths, Weaknesses, Opportunities, and Threats related to your problem. To perform a SWOT analysis:

  • List your problem’s strengths, such as relevant resources or strong partnerships.
  • Identify its weaknesses, such as knowledge gaps or limited resources.
  • Explore opportunities, like trends or new technologies, that could help solve the problem.
  • Recognize potential threats, like competition or regulatory barriers.

SWOT analysis aids in understanding the internal and external factors affecting the problem, which can help guide your solution.

Mind Mapping

A mind map is a visual representation of your problem and potential solutions. It enables you to organize information in a structured and intuitive manner. To create a mind map:

  • Write the problem in the center of a blank page.
  • Draw branches from the central problem to related sub-problems or contributing factors.
  • Add more branches to represent potential solutions or further ideas.

Mind mapping allows you to visually see connections between ideas and promotes creativity in problem-solving.

Examples of Problem Solving in Various Contexts

In the business world, you might encounter problems related to finances, operations, or communication. Applying problem-solving skills in these situations could look like:

  • Identifying areas of improvement in your company’s financial performance and implementing cost-saving measures
  • Resolving internal conflicts among team members by listening and understanding different perspectives, then proposing and negotiating solutions
  • Streamlining a process for better productivity by removing redundancies, automating tasks, or re-allocating resources

In educational contexts, problem-solving can be seen in various aspects, such as:

  • Addressing a gap in students’ understanding by employing diverse teaching methods to cater to different learning styles
  • Developing a strategy for successful time management to balance academic responsibilities and extracurricular activities
  • Seeking resources and support to provide equal opportunities for learners with special needs or disabilities

Everyday life is full of challenges that require problem-solving skills. Some examples include:

  • Overcoming a personal obstacle, such as improving your fitness level, by establishing achievable goals, measuring progress, and adjusting your approach accordingly
  • Navigating a new environment or city by researching your surroundings, asking for directions, or using technology like GPS to guide you
  • Dealing with a sudden change, like a change in your work schedule, by assessing the situation, identifying potential impacts, and adapting your plans to accommodate the change.
  • How to Resolve Employee Conflict at Work [Steps, Tips, Examples]
  • How to Write Inspiring Core Values? 5 Steps with Examples
  • 30 Employee Feedback Examples (Positive & Negative)

What are the 7 Steps to Problem-Solving? & Its Examples

What are the 7 Steps to Problem-Solving & Its Examples (2)-compressed

7 Steps to Problem-Solving

7 Steps to Problem-Solving is a systematic process that involves analyzing a situation, generating possible solutions, and implementing the best course of action. While different problem-solving models exist, a common approach often involves the following seven steps:

Define the Problem:

  • Clearly articulate and understand the nature of the problem. Define the issue, its scope, and its impact on individuals or the organization.

Gather Information:

  • Collect relevant data and information related to the problem. This may involve research, observation, interviews, or any other method to gain a comprehensive understanding.

Generate Possible Solutions:

  • Brainstorm and generate a variety of potential solutions to the problem. Encourage creativity and consider different perspectives during this phase.

Evaluate Options:

  • Assess the strengths and weaknesses of each potential solution. Consider the feasibility, potential risks, and the likely outcomes associated with each option.

Make a Decision:

  • Based on the evaluation, choose the most suitable solution. This decision should align with the goals and values of the individual or organization facing the problem.

Implement the Solution:

  • Put the chosen solution into action. Develop an implementation plan, allocate resources, and carry out the necessary steps to address the problem effectively.

Evaluate the Results:

  • Assess the outcomes of the implemented solution. Did it solve the problem as intended? What can be learned from the process? Use this information to refine future problem-solving efforts.

It’s important to note that these steps are not always linear and may involve iteration. Problem-solving is often an ongoing process, and feedback from the implementation and evaluation stages may lead to adjustments in the chosen solution or the identification of new issues that need to be addressed.

Problem-Solving Example in Education

  • Certainly: Let’s consider a problem-solving example in the context of education.
  • Problem: Declining Student Engagement in Mathematics Classes

Background:

A high school has noticed a decline in student engagement and performance in mathematics classes over the past few years. Students seem disinterested, and there is a noticeable decrease in test scores. The traditional teaching methods are not effectively capturing students’ attention, and there’s a need for innovative solutions to rekindle interest in mathematics.

Steps in Problem-Solving

Identify the problem:.

  • Clearly define the issue: declining student engagement and performance in mathematics classes.
  • Gather data on student performance, attendance, and feedback from teachers and students.

Root Cause Analysis

  • Conduct surveys, interviews, and classroom observations to identify the root causes of disengagement.
  • Identify potential factors such as teaching methods, curriculum relevance, or lack of real-world applications.

Brainstorm Solutions

  • Organize a team of educators, administrators, and even students to brainstorm creative solutions.
  • Consider integrating technology, real-world applications, project-based learning, or other interactive teaching methods.

Evaluate and Prioritize Solutions

  • Evaluate each solution based on feasibility, cost, and potential impact.
  • Prioritize solutions that are likely to address the root causes and have a positive impact on student engagement.

Implement the Chosen Solution

  • Develop an action plan for implementing the chosen solution.
  • Provide training and resources for teachers to adapt to new teaching methods or technologies.

Monitor and Evaluate

  • Continuously monitor the implementation of the solution.
  • Collect feedback from teachers and students to assess the effectiveness of the changes.

Adjust as Needed

  • Be willing to make adjustments based on ongoing feedback and data analysis.
  • Fine-tune the solution to address any unforeseen challenges or issues.

Example Solution

  • Introduce a project-based learning approach in mathematics classes, where students work on real-world problems that require mathematical skills.
  • Incorporate technology, such as educational apps or interactive simulations, to make learning more engaging.
  • Provide professional development for teachers to enhance their skills in implementing these new teaching methods.

Expected Outcomes:

  • Increased student engagement and interest in mathematics.
  • Improvement in test scores and overall academic performance.
  • Positive feedback from both teachers and students.

Final Words

This problem-solving approach in education involves a systematic process of identifying, analyzing, and addressing issues to enhance the learning experience for students.

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The Problem-Solving Process

Looking at the basic problem-solving process to help keep you on the right track.

By the Mind Tools Content Team

Problem-solving is an important part of planning and decision-making. The process has much in common with the decision-making process, and in the case of complex decisions, can form part of the process itself.

We face and solve problems every day, in a variety of guises and of differing complexity. Some, such as the resolution of a serious complaint, require a significant amount of time, thought and investigation. Others, such as a printer running out of paper, are so quickly resolved they barely register as a problem at all.

what is the first step of problem solving

Despite the everyday occurrence of problems, many people lack confidence when it comes to solving them, and as a result may chose to stay with the status quo rather than tackle the issue. Broken down into steps, however, the problem-solving process is very simple. While there are many tools and techniques available to help us solve problems, the outline process remains the same.

The main stages of problem-solving are outlined below, though not all are required for every problem that needs to be solved.

what is the first step of problem solving

1. Define the Problem

Clarify the problem before trying to solve it. A common mistake with problem-solving is to react to what the problem appears to be, rather than what it actually is. Write down a simple statement of the problem, and then underline the key words. Be certain there are no hidden assumptions in the key words you have underlined. One way of doing this is to use a synonym to replace the key words. For example, ‘We need to encourage higher productivity ’ might become ‘We need to promote superior output ’ which has a different meaning.

2. Analyze the Problem

Ask yourself, and others, the following questions.

  • Where is the problem occurring?
  • When is it occurring?
  • Why is it happening?

Be careful not to jump to ‘who is causing the problem?’. When stressed and faced with a problem it is all too easy to assign blame. This, however, can cause negative feeling and does not help to solve the problem. As an example, if an employee is underperforming, the root of the problem might lie in a number of areas, such as lack of training, workplace bullying or management style. To assign immediate blame to the employee would not therefore resolve the underlying issue.

Once the answers to the where, when and why have been determined, the following questions should also be asked:

  • Where can further information be found?
  • Is this information correct, up-to-date and unbiased?
  • What does this information mean in terms of the available options?

3. Generate Potential Solutions

When generating potential solutions it can be a good idea to have a mixture of ‘right brain’ and ‘left brain’ thinkers. In other words, some people who think laterally and some who think logically. This provides a balance in terms of generating the widest possible variety of solutions while also being realistic about what can be achieved. There are many tools and techniques which can help produce solutions, including thinking about the problem from a number of different perspectives, and brainstorming, where a team or individual write as many possibilities as they can think of to encourage lateral thinking and generate a broad range of potential solutions.

4. Select Best Solution

When selecting the best solution, consider:

  • Is this a long-term solution, or a ‘quick fix’?
  • Is the solution achievable in terms of available resources and time?
  • Are there any risks associated with the chosen solution?
  • Could the solution, in itself, lead to other problems?

This stage in particular demonstrates why problem-solving and decision-making are so closely related.

5. Take Action

In order to implement the chosen solution effectively, consider the following:

  • What will the situation look like when the problem is resolved?
  • What needs to be done to implement the solution? Are there systems or processes that need to be adjusted?
  • What will be the success indicators?
  • What are the timescales for the implementation? Does the scale of the problem/implementation require a project plan?
  • Who is responsible?

Once the answers to all the above questions are written down, they can form the basis of an action plan.

6. Monitor and Review

One of the most important factors in successful problem-solving is continual observation and feedback. Use the success indicators in the action plan to monitor progress on a regular basis. Is everything as expected? Is everything on schedule? Keep an eye on priorities and timelines to prevent them from slipping.

If the indicators are not being met, or if timescales are slipping, consider what can be done. Was the plan realistic? If so, are sufficient resources being made available? Are these resources targeting the correct part of the plan? Or does the plan need to be amended? Regular review and discussion of the action plan is important so small adjustments can be made on a regular basis to help keep everything on track.

Once all the indicators have been met and the problem has been resolved, consider what steps can now be taken to prevent this type of problem recurring? It may be that the chosen solution already prevents a recurrence, however if an interim or partial solution has been chosen it is important not to lose momentum.

Problems, by their very nature, will not always fit neatly into a structured problem-solving process. This process, therefore, is designed as a framework which can be adapted to individual needs and nature.

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Problem-Solving Strategies and Obstacles

Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

what is the first step of problem solving

Sean is a fact-checker and researcher with experience in sociology, field research, and data analytics.

what is the first step of problem solving

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  • Application
  • Improvement

From deciding what to eat for dinner to considering whether it's the right time to buy a house, problem-solving is a large part of our daily lives. Learn some of the problem-solving strategies that exist and how to use them in real life, along with ways to overcome obstacles that are making it harder to resolve the issues you face.

What Is Problem-Solving?

In cognitive psychology , the term 'problem-solving' refers to the mental process that people go through to discover, analyze, and solve problems.

A problem exists when there is a goal that we want to achieve but the process by which we will achieve it is not obvious to us. Put another way, there is something that we want to occur in our life, yet we are not immediately certain how to make it happen.

Maybe you want a better relationship with your spouse or another family member but you're not sure how to improve it. Or you want to start a business but are unsure what steps to take. Problem-solving helps you figure out how to achieve these desires.

The problem-solving process involves:

  • Discovery of the problem
  • Deciding to tackle the issue
  • Seeking to understand the problem more fully
  • Researching available options or solutions
  • Taking action to resolve the issue

Before problem-solving can occur, it is important to first understand the exact nature of the problem itself. If your understanding of the issue is faulty, your attempts to resolve it will also be incorrect or flawed.

Problem-Solving Mental Processes

Several mental processes are at work during problem-solving. Among them are:

  • Perceptually recognizing the problem
  • Representing the problem in memory
  • Considering relevant information that applies to the problem
  • Identifying different aspects of the problem
  • Labeling and describing the problem

Problem-Solving Strategies

There are many ways to go about solving a problem. Some of these strategies might be used on their own, or you may decide to employ multiple approaches when working to figure out and fix a problem.

An algorithm is a step-by-step procedure that, by following certain "rules" produces a solution. Algorithms are commonly used in mathematics to solve division or multiplication problems. But they can be used in other fields as well.

In psychology, algorithms can be used to help identify individuals with a greater risk of mental health issues. For instance, research suggests that certain algorithms might help us recognize children with an elevated risk of suicide or self-harm.

One benefit of algorithms is that they guarantee an accurate answer. However, they aren't always the best approach to problem-solving, in part because detecting patterns can be incredibly time-consuming.

There are also concerns when machine learning is involved—also known as artificial intelligence (AI)—such as whether they can accurately predict human behaviors.

Heuristics are shortcut strategies that people can use to solve a problem at hand. These "rule of thumb" approaches allow you to simplify complex problems, reducing the total number of possible solutions to a more manageable set.

If you find yourself sitting in a traffic jam, for example, you may quickly consider other routes, taking one to get moving once again. When shopping for a new car, you might think back to a prior experience when negotiating got you a lower price, then employ the same tactics.

While heuristics may be helpful when facing smaller issues, major decisions shouldn't necessarily be made using a shortcut approach. Heuristics also don't guarantee an effective solution, such as when trying to drive around a traffic jam only to find yourself on an equally crowded route.

Trial and Error

A trial-and-error approach to problem-solving involves trying a number of potential solutions to a particular issue, then ruling out those that do not work. If you're not sure whether to buy a shirt in blue or green, for instance, you may try on each before deciding which one to purchase.

This can be a good strategy to use if you have a limited number of solutions available. But if there are many different choices available, narrowing down the possible options using another problem-solving technique can be helpful before attempting trial and error.

In some cases, the solution to a problem can appear as a sudden insight. You are facing an issue in a relationship or your career when, out of nowhere, the solution appears in your mind and you know exactly what to do.

Insight can occur when the problem in front of you is similar to an issue that you've dealt with in the past. Although, you may not recognize what is occurring since the underlying mental processes that lead to insight often happen outside of conscious awareness .

Research indicates that insight is most likely to occur during times when you are alone—such as when going on a walk by yourself, when you're in the shower, or when lying in bed after waking up.

How to Apply Problem-Solving Strategies in Real Life

If you're facing a problem, you can implement one or more of these strategies to find a potential solution. Here's how to use them in real life:

  • Create a flow chart . If you have time, you can take advantage of the algorithm approach to problem-solving by sitting down and making a flow chart of each potential solution, its consequences, and what happens next.
  • Recall your past experiences . When a problem needs to be solved fairly quickly, heuristics may be a better approach. Think back to when you faced a similar issue, then use your knowledge and experience to choose the best option possible.
  • Start trying potential solutions . If your options are limited, start trying them one by one to see which solution is best for achieving your desired goal. If a particular solution doesn't work, move on to the next.
  • Take some time alone . Since insight is often achieved when you're alone, carve out time to be by yourself for a while. The answer to your problem may come to you, seemingly out of the blue, if you spend some time away from others.

Obstacles to Problem-Solving

Problem-solving is not a flawless process as there are a number of obstacles that can interfere with our ability to solve a problem quickly and efficiently. These obstacles include:

  • Assumptions: When dealing with a problem, people can make assumptions about the constraints and obstacles that prevent certain solutions. Thus, they may not even try some potential options.
  • Functional fixedness : This term refers to the tendency to view problems only in their customary manner. Functional fixedness prevents people from fully seeing all of the different options that might be available to find a solution.
  • Irrelevant or misleading information: When trying to solve a problem, it's important to distinguish between information that is relevant to the issue and irrelevant data that can lead to faulty solutions. The more complex the problem, the easier it is to focus on misleading or irrelevant information.
  • Mental set: A mental set is a tendency to only use solutions that have worked in the past rather than looking for alternative ideas. A mental set can work as a heuristic, making it a useful problem-solving tool. However, mental sets can also lead to inflexibility, making it more difficult to find effective solutions.

How to Improve Your Problem-Solving Skills

In the end, if your goal is to become a better problem-solver, it's helpful to remember that this is a process. Thus, if you want to improve your problem-solving skills, following these steps can help lead you to your solution:

  • Recognize that a problem exists . If you are facing a problem, there are generally signs. For instance, if you have a mental illness , you may experience excessive fear or sadness, mood changes, and changes in sleeping or eating habits. Recognizing these signs can help you realize that an issue exists.
  • Decide to solve the problem . Make a conscious decision to solve the issue at hand. Commit to yourself that you will go through the steps necessary to find a solution.
  • Seek to fully understand the issue . Analyze the problem you face, looking at it from all sides. If your problem is relationship-related, for instance, ask yourself how the other person may be interpreting the issue. You might also consider how your actions might be contributing to the situation.
  • Research potential options . Using the problem-solving strategies mentioned, research potential solutions. Make a list of options, then consider each one individually. What are some pros and cons of taking the available routes? What would you need to do to make them happen?
  • Take action . Select the best solution possible and take action. Action is one of the steps required for change . So, go through the motions needed to resolve the issue.
  • Try another option, if needed . If the solution you chose didn't work, don't give up. Either go through the problem-solving process again or simply try another option.

You can find a way to solve your problems as long as you keep working toward this goal—even if the best solution is simply to let go because no other good solution exists.

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By Kendra Cherry, MSEd Kendra Cherry, MS, is a psychosocial rehabilitation specialist, psychology educator, and author of the "Everything Psychology Book."

How to master the seven-step problem-solving process

In this episode of the McKinsey Podcast , Simon London speaks with Charles Conn, CEO of venture-capital firm Oxford Sciences Innovation, and McKinsey senior partner Hugo Sarrazin about the complexities of different problem-solving strategies.

Podcast transcript

Simon London: Hello, and welcome to this episode of the McKinsey Podcast , with me, Simon London. What’s the number-one skill you need to succeed professionally? Salesmanship, perhaps? Or a facility with statistics? Or maybe the ability to communicate crisply and clearly? Many would argue that at the very top of the list comes problem solving: that is, the ability to think through and come up with an optimal course of action to address any complex challenge—in business, in public policy, or indeed in life.

Looked at this way, it’s no surprise that McKinsey takes problem solving very seriously, testing for it during the recruiting process and then honing it, in McKinsey consultants, through immersion in a structured seven-step method. To discuss the art of problem solving, I sat down in California with McKinsey senior partner Hugo Sarrazin and also with Charles Conn. Charles is a former McKinsey partner, entrepreneur, executive, and coauthor of the book Bulletproof Problem Solving: The One Skill That Changes Everything [John Wiley & Sons, 2018].

Charles and Hugo, welcome to the podcast. Thank you for being here.

Hugo Sarrazin: Our pleasure.

Charles Conn: It’s terrific to be here.

Simon London: Problem solving is a really interesting piece of terminology. It could mean so many different things. I have a son who’s a teenage climber. They talk about solving problems. Climbing is problem solving. Charles, when you talk about problem solving, what are you talking about?

Charles Conn: For me, problem solving is the answer to the question “What should I do?” It’s interesting when there’s uncertainty and complexity, and when it’s meaningful because there are consequences. Your son’s climbing is a perfect example. There are consequences, and it’s complicated, and there’s uncertainty—can he make that grab? I think we can apply that same frame almost at any level. You can think about questions like “What town would I like to live in?” or “Should I put solar panels on my roof?”

You might think that’s a funny thing to apply problem solving to, but in my mind it’s not fundamentally different from business problem solving, which answers the question “What should my strategy be?” Or problem solving at the policy level: “How do we combat climate change?” “Should I support the local school bond?” I think these are all part and parcel of the same type of question, “What should I do?”

I’m a big fan of structured problem solving. By following steps, we can more clearly understand what problem it is we’re solving, what are the components of the problem that we’re solving, which components are the most important ones for us to pay attention to, which analytic techniques we should apply to those, and how we can synthesize what we’ve learned back into a compelling story. That’s all it is, at its heart.

I think sometimes when people think about seven steps, they assume that there’s a rigidity to this. That’s not it at all. It’s actually to give you the scope for creativity, which often doesn’t exist when your problem solving is muddled.

Simon London: You were just talking about the seven-step process. That’s what’s written down in the book, but it’s a very McKinsey process as well. Without getting too deep into the weeds, let’s go through the steps, one by one. You were just talking about problem definition as being a particularly important thing to get right first. That’s the first step. Hugo, tell us about that.

Hugo Sarrazin: It is surprising how often people jump past this step and make a bunch of assumptions. The most powerful thing is to step back and ask the basic questions—“What are we trying to solve? What are the constraints that exist? What are the dependencies?” Let’s make those explicit and really push the thinking and defining. At McKinsey, we spend an enormous amount of time in writing that little statement, and the statement, if you’re a logic purist, is great. You debate. “Is it an ‘or’? Is it an ‘and’? What’s the action verb?” Because all these specific words help you get to the heart of what matters.

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Simon London: So this is a concise problem statement.

Hugo Sarrazin: Yeah. It’s not like “Can we grow in Japan?” That’s interesting, but it is “What, specifically, are we trying to uncover in the growth of a product in Japan? Or a segment in Japan? Or a channel in Japan?” When you spend an enormous amount of time, in the first meeting of the different stakeholders, debating this and having different people put forward what they think the problem definition is, you realize that people have completely different views of why they’re here. That, to me, is the most important step.

Charles Conn: I would agree with that. For me, the problem context is critical. When we understand “What are the forces acting upon your decision maker? How quickly is the answer needed? With what precision is the answer needed? Are there areas that are off limits or areas where we would particularly like to find our solution? Is the decision maker open to exploring other areas?” then you not only become more efficient, and move toward what we call the critical path in problem solving, but you also make it so much more likely that you’re not going to waste your time or your decision maker’s time.

How often do especially bright young people run off with half of the idea about what the problem is and start collecting data and start building models—only to discover that they’ve really gone off half-cocked.

Hugo Sarrazin: Yeah.

Charles Conn: And in the wrong direction.

Simon London: OK. So step one—and there is a real art and a structure to it—is define the problem. Step two, Charles?

Charles Conn: My favorite step is step two, which is to use logic trees to disaggregate the problem. Every problem we’re solving has some complexity and some uncertainty in it. The only way that we can really get our team working on the problem is to take the problem apart into logical pieces.

What we find, of course, is that the way to disaggregate the problem often gives you an insight into the answer to the problem quite quickly. I love to do two or three different cuts at it, each one giving a bit of a different insight into what might be going wrong. By doing sensible disaggregations, using logic trees, we can figure out which parts of the problem we should be looking at, and we can assign those different parts to team members.

Simon London: What’s a good example of a logic tree on a sort of ratable problem?

Charles Conn: Maybe the easiest one is the classic profit tree. Almost in every business that I would take a look at, I would start with a profit or return-on-assets tree. In its simplest form, you have the components of revenue, which are price and quantity, and the components of cost, which are cost and quantity. Each of those can be broken out. Cost can be broken into variable cost and fixed cost. The components of price can be broken into what your pricing scheme is. That simple tree often provides insight into what’s going on in a business or what the difference is between that business and the competitors.

If we add the leg, which is “What’s the asset base or investment element?”—so profit divided by assets—then we can ask the question “Is the business using its investments sensibly?” whether that’s in stores or in manufacturing or in transportation assets. I hope we can see just how simple this is, even though we’re describing it in words.

When I went to work with Gordon Moore at the Moore Foundation, the problem that he asked us to look at was “How can we save Pacific salmon?” Now, that sounds like an impossible question, but it was amenable to precisely the same type of disaggregation and allowed us to organize what became a 15-year effort to improve the likelihood of good outcomes for Pacific salmon.

Simon London: Now, is there a danger that your logic tree can be impossibly large? This, I think, brings us onto the third step in the process, which is that you have to prioritize.

Charles Conn: Absolutely. The third step, which we also emphasize, along with good problem definition, is rigorous prioritization—we ask the questions “How important is this lever or this branch of the tree in the overall outcome that we seek to achieve? How much can I move that lever?” Obviously, we try and focus our efforts on ones that have a big impact on the problem and the ones that we have the ability to change. With salmon, ocean conditions turned out to be a big lever, but not one that we could adjust. We focused our attention on fish habitats and fish-harvesting practices, which were big levers that we could affect.

People spend a lot of time arguing about branches that are either not important or that none of us can change. We see it in the public square. When we deal with questions at the policy level—“Should you support the death penalty?” “How do we affect climate change?” “How can we uncover the causes and address homelessness?”—it’s even more important that we’re focusing on levers that are big and movable.

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Simon London: Let’s move swiftly on to step four. You’ve defined your problem, you disaggregate it, you prioritize where you want to analyze—what you want to really look at hard. Then you got to the work plan. Now, what does that mean in practice?

Hugo Sarrazin: Depending on what you’ve prioritized, there are many things you could do. It could be breaking the work among the team members so that people have a clear piece of the work to do. It could be defining the specific analyses that need to get done and executed, and being clear on time lines. There’s always a level-one answer, there’s a level-two answer, there’s a level-three answer. Without being too flippant, I can solve any problem during a good dinner with wine. It won’t have a whole lot of backing.

Simon London: Not going to have a lot of depth to it.

Hugo Sarrazin: No, but it may be useful as a starting point. If the stakes are not that high, that could be OK. If it’s really high stakes, you may need level three and have the whole model validated in three different ways. You need to find a work plan that reflects the level of precision, the time frame you have, and the stakeholders you need to bring along in the exercise.

Charles Conn: I love the way you’ve described that, because, again, some people think of problem solving as a linear thing, but of course what’s critical is that it’s iterative. As you say, you can solve the problem in one day or even one hour.

Charles Conn: We encourage our teams everywhere to do that. We call it the one-day answer or the one-hour answer. In work planning, we’re always iterating. Every time you see a 50-page work plan that stretches out to three months, you know it’s wrong. It will be outmoded very quickly by that learning process that you described. Iterative problem solving is a critical part of this. Sometimes, people think work planning sounds dull, but it isn’t. It’s how we know what’s expected of us and when we need to deliver it and how we’re progressing toward the answer. It’s also the place where we can deal with biases. Bias is a feature of every human decision-making process. If we design our team interactions intelligently, we can avoid the worst sort of biases.

Simon London: Here we’re talking about cognitive biases primarily, right? It’s not that I’m biased against you because of your accent or something. These are the cognitive biases that behavioral sciences have shown we all carry around, things like anchoring, overoptimism—these kinds of things.

Both: Yeah.

Charles Conn: Availability bias is the one that I’m always alert to. You think you’ve seen the problem before, and therefore what’s available is your previous conception of it—and we have to be most careful about that. In any human setting, we also have to be careful about biases that are based on hierarchies, sometimes called sunflower bias. I’m sure, Hugo, with your teams, you make sure that the youngest team members speak first. Not the oldest team members, because it’s easy for people to look at who’s senior and alter their own creative approaches.

Hugo Sarrazin: It’s helpful, at that moment—if someone is asserting a point of view—to ask the question “This was true in what context?” You’re trying to apply something that worked in one context to a different one. That can be deadly if the context has changed, and that’s why organizations struggle to change. You promote all these people because they did something that worked well in the past, and then there’s a disruption in the industry, and they keep doing what got them promoted even though the context has changed.

Simon London: Right. Right.

Hugo Sarrazin: So it’s the same thing in problem solving.

Charles Conn: And it’s why diversity in our teams is so important. It’s one of the best things about the world that we’re in now. We’re likely to have people from different socioeconomic, ethnic, and national backgrounds, each of whom sees problems from a slightly different perspective. It is therefore much more likely that the team will uncover a truly creative and clever approach to problem solving.

Simon London: Let’s move on to step five. You’ve done your work plan. Now you’ve actually got to do the analysis. The thing that strikes me here is that the range of tools that we have at our disposal now, of course, is just huge, particularly with advances in computation, advanced analytics. There’s so many things that you can apply here. Just talk about the analysis stage. How do you pick the right tools?

Charles Conn: For me, the most important thing is that we start with simple heuristics and explanatory statistics before we go off and use the big-gun tools. We need to understand the shape and scope of our problem before we start applying these massive and complex analytical approaches.

Simon London: Would you agree with that?

Hugo Sarrazin: I agree. I think there are so many wonderful heuristics. You need to start there before you go deep into the modeling exercise. There’s an interesting dynamic that’s happening, though. In some cases, for some types of problems, it is even better to set yourself up to maximize your learning. Your problem-solving methodology is test and learn, test and learn, test and learn, and iterate. That is a heuristic in itself, the A/B testing that is used in many parts of the world. So that’s a problem-solving methodology. It’s nothing different. It just uses technology and feedback loops in a fast way. The other one is exploratory data analysis. When you’re dealing with a large-scale problem, and there’s so much data, I can get to the heuristics that Charles was talking about through very clever visualization of data.

You test with your data. You need to set up an environment to do so, but don’t get caught up in neural-network modeling immediately. You’re testing, you’re checking—“Is the data right? Is it sound? Does it make sense?”—before you launch too far.

Simon London: You do hear these ideas—that if you have a big enough data set and enough algorithms, they’re going to find things that you just wouldn’t have spotted, find solutions that maybe you wouldn’t have thought of. Does machine learning sort of revolutionize the problem-solving process? Or are these actually just other tools in the toolbox for structured problem solving?

Charles Conn: It can be revolutionary. There are some areas in which the pattern recognition of large data sets and good algorithms can help us see things that we otherwise couldn’t see. But I do think it’s terribly important we don’t think that this particular technique is a substitute for superb problem solving, starting with good problem definition. Many people use machine learning without understanding algorithms that themselves can have biases built into them. Just as 20 years ago, when we were doing statistical analysis, we knew that we needed good model definition, we still need a good understanding of our algorithms and really good problem definition before we launch off into big data sets and unknown algorithms.

Simon London: Step six. You’ve done your analysis.

Charles Conn: I take six and seven together, and this is the place where young problem solvers often make a mistake. They’ve got their analysis, and they assume that’s the answer, and of course it isn’t the answer. The ability to synthesize the pieces that came out of the analysis and begin to weave those into a story that helps people answer the question “What should I do?” This is back to where we started. If we can’t synthesize, and we can’t tell a story, then our decision maker can’t find the answer to “What should I do?”

Simon London: But, again, these final steps are about motivating people to action, right?

Charles Conn: Yeah.

Simon London: I am slightly torn about the nomenclature of problem solving because it’s on paper, right? Until you motivate people to action, you actually haven’t solved anything.

Charles Conn: I love this question because I think decision-making theory, without a bias to action, is a waste of time. Everything in how I approach this is to help people take action that makes the world better.

Simon London: Hence, these are absolutely critical steps. If you don’t do this well, you’ve just got a bunch of analysis.

Charles Conn: We end up in exactly the same place where we started, which is people speaking across each other, past each other in the public square, rather than actually working together, shoulder to shoulder, to crack these important problems.

Simon London: In the real world, we have a lot of uncertainty—arguably, increasing uncertainty. How do good problem solvers deal with that?

Hugo Sarrazin: At every step of the process. In the problem definition, when you’re defining the context, you need to understand those sources of uncertainty and whether they’re important or not important. It becomes important in the definition of the tree.

You need to think carefully about the branches of the tree that are more certain and less certain as you define them. They don’t have equal weight just because they’ve got equal space on the page. Then, when you’re prioritizing, your prioritization approach may put more emphasis on things that have low probability but huge impact—or, vice versa, may put a lot of priority on things that are very likely and, hopefully, have a reasonable impact. You can introduce that along the way. When you come back to the synthesis, you just need to be nuanced about what you’re understanding, the likelihood.

Often, people lack humility in the way they make their recommendations: “This is the answer.” They’re very precise, and I think we would all be well-served to say, “This is a likely answer under the following sets of conditions” and then make the level of uncertainty clearer, if that is appropriate. It doesn’t mean you’re always in the gray zone; it doesn’t mean you don’t have a point of view. It just means that you can be explicit about the certainty of your answer when you make that recommendation.

Simon London: So it sounds like there is an underlying principle: “Acknowledge and embrace the uncertainty. Don’t pretend that it isn’t there. Be very clear about what the uncertainties are up front, and then build that into every step of the process.”

Hugo Sarrazin: Every step of the process.

Simon London: Yeah. We have just walked through a particular structured methodology for problem solving. But, of course, this is not the only structured methodology for problem solving. One that is also very well-known is design thinking, which comes at things very differently. So, Hugo, I know you have worked with a lot of designers. Just give us a very quick summary. Design thinking—what is it, and how does it relate?

Hugo Sarrazin: It starts with an incredible amount of empathy for the user and uses that to define the problem. It does pause and go out in the wild and spend an enormous amount of time seeing how people interact with objects, seeing the experience they’re getting, seeing the pain points or joy—and uses that to infer and define the problem.

Simon London: Problem definition, but out in the world.

Hugo Sarrazin: With an enormous amount of empathy. There’s a huge emphasis on empathy. Traditional, more classic problem solving is you define the problem based on an understanding of the situation. This one almost presupposes that we don’t know the problem until we go see it. The second thing is you need to come up with multiple scenarios or answers or ideas or concepts, and there’s a lot of divergent thinking initially. That’s slightly different, versus the prioritization, but not for long. Eventually, you need to kind of say, “OK, I’m going to converge again.” Then you go and you bring things back to the customer and get feedback and iterate. Then you rinse and repeat, rinse and repeat. There’s a lot of tactile building, along the way, of prototypes and things like that. It’s very iterative.

Simon London: So, Charles, are these complements or are these alternatives?

Charles Conn: I think they’re entirely complementary, and I think Hugo’s description is perfect. When we do problem definition well in classic problem solving, we are demonstrating the kind of empathy, at the very beginning of our problem, that design thinking asks us to approach. When we ideate—and that’s very similar to the disaggregation, prioritization, and work-planning steps—we do precisely the same thing, and often we use contrasting teams, so that we do have divergent thinking. The best teams allow divergent thinking to bump them off whatever their initial biases in problem solving are. For me, design thinking gives us a constant reminder of creativity, empathy, and the tactile nature of problem solving, but it’s absolutely complementary, not alternative.

Simon London: I think, in a world of cross-functional teams, an interesting question is do people with design-thinking backgrounds really work well together with classical problem solvers? How do you make that chemistry happen?

Hugo Sarrazin: Yeah, it is not easy when people have spent an enormous amount of time seeped in design thinking or user-centric design, whichever word you want to use. If the person who’s applying classic problem-solving methodology is very rigid and mechanical in the way they’re doing it, there could be an enormous amount of tension. If there’s not clarity in the role and not clarity in the process, I think having the two together can be, sometimes, problematic.

The second thing that happens often is that the artifacts the two methodologies try to gravitate toward can be different. Classic problem solving often gravitates toward a model; design thinking migrates toward a prototype. Rather than writing a big deck with all my supporting evidence, they’ll bring an example, a thing, and that feels different. Then you spend your time differently to achieve those two end products, so that’s another source of friction.

Now, I still think it can be an incredibly powerful thing to have the two—if there are the right people with the right mind-set, if there is a team that is explicit about the roles, if we’re clear about the kind of outcomes we are attempting to bring forward. There’s an enormous amount of collaborativeness and respect.

Simon London: But they have to respect each other’s methodology and be prepared to flex, maybe, a little bit, in how this process is going to work.

Hugo Sarrazin: Absolutely.

Simon London: The other area where, it strikes me, there could be a little bit of a different sort of friction is this whole concept of the day-one answer, which is what we were just talking about in classical problem solving. Now, you know that this is probably not going to be your final answer, but that’s how you begin to structure the problem. Whereas I would imagine your design thinkers—no, they’re going off to do their ethnographic research and get out into the field, potentially for a long time, before they come back with at least an initial hypothesis.

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Hugo Sarrazin: That is a great callout, and that’s another difference. Designers typically will like to soak into the situation and avoid converging too quickly. There’s optionality and exploring different options. There’s a strong belief that keeps the solution space wide enough that you can come up with more radical ideas. If there’s a large design team or many designers on the team, and you come on Friday and say, “What’s our week-one answer?” they’re going to struggle. They’re not going to be comfortable, naturally, to give that answer. It doesn’t mean they don’t have an answer; it’s just not where they are in their thinking process.

Simon London: I think we are, sadly, out of time for today. But Charles and Hugo, thank you so much.

Charles Conn: It was a pleasure to be here, Simon.

Hugo Sarrazin: It was a pleasure. Thank you.

Simon London: And thanks, as always, to you, our listeners, for tuning into this episode of the McKinsey Podcast . If you want to learn more about problem solving, you can find the book, Bulletproof Problem Solving: The One Skill That Changes Everything , online or order it through your local bookstore. To learn more about McKinsey, you can of course find us at McKinsey.com.

Charles Conn is CEO of Oxford Sciences Innovation and an alumnus of McKinsey’s Sydney office. Hugo Sarrazin is a senior partner in the Silicon Valley office, where Simon London, a member of McKinsey Publishing, is also based.

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Five routes to more innovative problem solving

Learn Creative Problem Solving Techniques to Stimulate Innovation in Your Organization

By Kate Eby | October 20, 2017 (updated August 27, 2021)

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In today’s competitive business landscape, organizations need processes in place to make strong, well-informed, and innovative decisions. Problem solving - in particular creative problem solving (CPS) - is a key skill in learning how to accurately identify problems and their causes, generate potential solutions, and evaluate all the possibilities to arrive at a strong corrective course of action. Every team in any organization, regardless of department or industry, needs to be effective, creative, and quick when solving problems. 

In this article, we’ll discuss traditional and creative problem solving, and define the steps, best practices, and common barriers associated. After that, we’ll provide helpful methods and tools to identify the cause(s) of problematic situations, so you can get to the root of the issue and start to generate solutions. Then, we offer nearly 20 creative problem solving techniques to implement at your organization, or even in your personal life. Along the way, experts weigh in on the importance of problem solving, and offer tips and tricks. 

What Is Problem Solving and Decision Making?

Problem solving is the process of working through every aspect of an issue or challenge to reach a solution. Decision making is choosing one of multiple proposed solutions  — therefore, this process also includes defining and evaluating all potential options. Decision making is often one step of the problem solving process, but the two concepts are distinct. 

Collective problem solving is problem solving that includes many different parties and bridges the knowledge of different groups. Collective problem solving is common in business problem solving because workplace decisions typically affect more than one person. 

Problem solving, especially in business, is a complicated science. Not only are business conflicts multifaceted, but they often involve different personalities, levels of authority, and group dynamics. In recent years, however, there has been a rise in psychology-driven problem solving techniques, especially for the workplace. In fact, the psychology of how people solve problems is now studied formally in academic disciplines such as psychology and cognitive science.

Joe Carella

Joe Carella is the Assistant Dean for Executive Education at the University of Arizona . Joe has over 20 years of experience in helping executives and corporations in managing change and developing successful business strategies. His doctoral research and executive education engagements have seen him focus on corporate strategy, decision making and business performance with a variety of corporate clients including Hershey’s, Chevron, Fender Musical Instruments Corporation, Intel, DP World, Essilor, BBVA Compass Bank.

He explains some of the basic psychology behind problem solving: “When our brain is engaged in the process of solving problems, it is engaged in a series of steps where it processes and organizes the information it receives while developing new knowledge it uses in future steps. Creativity is embedded in this process by incorporating diverse inputs and/or new ways of organizing the information received.”

Laura MacLeod

Laura MacLeod is a Professor of Social Group Work at City University of New York, and the creator of From The Inside Out Project® , a program that coaches managers in team leadership for a variety of workplaces. She has a background in social work and over two decades of experience as a union worker, and currently leads talks on conflict resolution, problem solving, and listening skills at conferences across the country. 

MacLeod thinks of problem solving as an integral practice of successful organizations. “Problem solving is a collaborative process — all voices are heard and connected, and resolution is reached by the group,” she says. “Problems and conflicts occur in all groups and teams in the workplace, but if leaders involve everyone in working through, they will foster cohesion, engagement, and buy in. Everybody wins.”

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What Is the First Step in Solving a Problem?

Although problem solving techniques vary procedurally, experts agree that the first step in solving a problem is defining the problem. Without a clear articulation of the problem at stake, it is impossible to analyze all the key factors and actors, generate possible solutions, and then evaluate them to pick the best option. 

Elliott Jaffa

Dr. Elliott Jaffa is a behavioral and management psychologist with over 25 years of problem solving training and management experience. “Start with defining the problem you want to solve,” he says, “And then define where you want to be, what you want to come away with.” He emphasizes these are the first steps in creating an actionable, clear solution. 

Bryan Mattimore

Bryan Mattimore is Co-Founder of Growth Engine, an 18-year old innovation agency based in Norwalk, CT. Bryan has facilitated over 1,000 ideation sessions and managed over 200 successful innovation projects leading to over $3 billion in new sales. His newest book is 21 Days to a Big Idea . When asked about the first critical component to successful problem solving, Mattimore says, “Defining the challenge correctly, or ‘solving the right problem’ … The three creative techniques we use to help our clients ‘identify the right problem to be solved’ are questioning assumptions, 20 questions, and problem redefinition. A good example of this was a new product challenge from a client to help them ‘invent a new iron. We got them to redefine the challenge as first: a) inventing new anti-wrinkle devices, and then b) inventing new garment care devices.”

What Are Problem Solving Skills?

To understand the necessary skills in problem solving, you should first understand the types of thinking often associated with strong decision making. Most problem solving techniques look for a balance between the following binaries:

  • Convergent vs. Divergent Thinking: Convergent thinking is bringing together disparate information or ideas to determine a single best answer or solution. This thinking style values logic, speed, and accuracy, and leaves no chance for ambiguity. Divergent thinking is focused on generating new ideas to identify and evaluate multiple possible solutions, often uniting ideas in unexpected combinations. Divergent thinking is characterized by creativity, complexity, curiosity, flexibility, originality, and risk-taking.
  • Pragmatics vs. Semantics: Pragmatics refer to the logic of the problem at hand, and semantics is how you interpret the problem to solve it. Both are important to yield the best possible solution.
  • Mathematical vs. Personal Problem Solving: Mathematical problem solving involves logic (usually leading to a single correct answer), and is useful for problems that involve numbers or require an objective, clear-cut solution. However, many workplace problems also require personal problem solving, which includes interpersonal, collaborative, and emotional intuition and skills. 

The following basic methods are fundamental problem solving concepts. Implement them to help balance the above thinking models.

  • Reproductive Thinking: Reproductive thinking uses past experience to solve a problem. However, be careful not to rely too heavily on past solutions, and to evaluate current problems individually, with their own factors and parameters. 
  • Idea Generation: The process of generating many possible courses of action to identify a solution. This is most commonly a team exercise because putting everyone’s ideas on the table will yield the greatest number of potential solutions. 

However, many of the most critical problem solving skills are “soft” skills: personal and interpersonal understanding, intuitiveness, and strong listening. 

Mattimore expands on this idea: “The seven key skills to be an effective creative problem solver that I detail in my book Idea Stormers: How to Lead and Inspire Creative Breakthroughs are: 1) curiosity 2) openness 3) a willingness to embrace ambiguity 4) the ability to identify and transfer principles across categories and disciplines 5) the desire to search for integrity in ideas, 6) the ability to trust and exercise “knowingness” and 7) the ability to envision new worlds (think Dr. Seuss, Star Wars, Hunger Games, Harry Potter, etc.).”

“As an individual contributor to problem solving it is important to exercise our curiosity, questioning, and visioning abilities,” advises Carella. “As a facilitator it is essential to allow for diverse ideas to emerge, be able to synthesize and ‘translate’ other people’s thinking, and build an extensive network of available resources.”

MacLeod says the following interpersonal skills are necessary to effectively facilitate group problem solving: “The abilities to invite participation (hear all voices, encourage silent members), not take sides, manage dynamics between the monopolizer, the scapegoat, and the bully, and deal with conflict (not avoiding it or shutting down).” 

Furthermore, Jaffa explains that the skills of a strong problem solver aren’t measurable. The best way to become a creative problem solver, he says, is to do regular creative exercises that keep you sharp and force you to think outside the box. Carella echoes this sentiment: “Neuroscience tells us that creativity comes from creating novel neural paths. Allow a few minutes each day to exercise your brain with novel techniques and brain ‘tricks’ – read something new, drive to work via a different route, count backwards, smell a new fragrance, etc.”

What Is Creative Problem Solving? History, Evolution, and Core Principles

Creative problem solving (CPS) is a method of problem solving in which you approach a problem or challenge in an imaginative, innovative way. The goal of CPS is to come up with innovative solutions, make a decision, and take action quickly. Sidney Parnes and Alex Osborn are credited with developing the creative problem solving process in the 1950s. The concept was further studied and developed at SUNY Buffalo State and the Creative Education Foundation. 

The core principles of CPS include the following:

  • Balance divergent and convergent thinking
  • Ask problems as questions
  • Defer or suspend judgement
  • Focus on “Yes, and…” rather than “No, but…”

According to Carella, “Creative problem solving is the mental process used for generating innovative and imaginative ideas as a solution to a problem or a challenge. Creative problem solving techniques can be pursued by individuals or groups.”

When asked to define CPS, Jaffa explains that it is, by nature, difficult to create boundaries for. “Creative problem solving is not cut and dry,” he says, “If you ask 100 different people the definition of creative problem solving, you’ll get 100 different responses - it’s a non-entity.”

Business presents a unique need for creative problem solving. Especially in today’s competitive landscape, organizations need to iterate quickly, innovate with intention, and constantly be at the cutting-edge of creativity and new ideas to succeed. Developing CPS skills among your workforce not only enables you to make faster, stronger in-the-moment decisions, but also inspires a culture of collaborative work and knowledge sharing. When people work together to generate multiple novel ideas and evaluate solutions, they are also more likely to arrive at an effective decision, which will improve business processes and reduce waste over time. In fact, CPS is so important that some companies now list creative problem solving skills as a job criteria.

MacLeod reiterates the vitality of creative problem solving in the workplace. “Problem solving is crucial for all groups and teams,” she says. “Leaders need to know how to guide the process, hear all voices and involve all members - it’s not easy.”

“This mental process [of CPS] is especially helpful in work environments where individuals and teams continuously struggle with new problems and challenges posed by their continuously changing environment,” adds Carella. 

Problem Solving Best Practices

By nature, creative problem solving does not have a clear-cut set of do’s and don’ts. Rather, creating a culture of strong creative problem solvers requires flexibility, adaptation, and interpersonal skills. However, there are a several best practices that you should incorporate:

  • Use a Systematic Approach: Regardless of the technique you use, choose a systematic method that satisfies your workplace conditions and constraints (time, resources, budget, etc.). Although you want to preserve creativity and openness to new ideas, maintaining a structured approach to the process will help you stay organized and focused. 
  • View Problems as Opportunities: Rather than focusing on the negatives or giving up when you encounter barriers, treat problems as opportunities to enact positive change on the situation. In fact, some experts even recommend defining problems as opportunities, to remain proactive and positive.
  • Change Perspective: Remember that there are multiple ways to solve any problem. If you feel stuck, changing perspective can help generate fresh ideas. A perspective change might entail seeking advice of a mentor or expert, understanding the context of a situation, or taking a break and returning to the problem later. “A sterile or familiar environment can stifle new thinking and new perspectives,” says Carella. “Make sure you get out to draw inspiration from spaces and people out of your usual reach.”
  • Break Down Silos: To invite the greatest possible number of perspectives to any problem, encourage teams to work cross-departmentally. This not only combines diverse expertise, but also creates a more trusting and collaborative environment, which is essential to effective CPS. According to Carella, “Big challenges are always best tackled by a group of people rather than left to a single individual. Make sure you create a space where the team can concentrate and convene.”
  • Employ Strong Leadership or a Facilitator: Some companies choose to hire an external facilitator that teaches problem solving techniques, best practices, and practicums to stimulate creative problem solving. But, internal managers and staff can also oversee these activities. Regardless of whether the facilitator is internal or external, choose a strong leader who will value others’ ideas and make space for creative solutions.  Mattimore has specific advice regarding the role of a facilitator: “When facilitating, get the group to name a promising idea (it will crystalize the idea and make it more memorable), and facilitate deeper rather than broader. Push for not only ideas, but how an idea might specifically work, some of its possible benefits, who and when would be interested in an idea, etc. This fleshing-out process with a group will generate fewer ideas, but at the end of the day will yield more useful concepts that might be profitably pursued.” Additionally, Carella says that “Executives and managers don’t necessarily have to be creative problem solvers, but need to make sure that their teams are equipped with the right tools and resources to make this happen. Also they need to be able to foster an environment where failing fast is accepted and celebrated.”
  • Evaluate Your Current Processes: This practice can help you unlock bottlenecks, and also identify gaps in your data and information management, both of which are common roots of business problems.

MacLeod offers the following additional advice, “Always get the facts. Don’t jump too quickly to a solution – working through [problems] takes time and patience.”

Mattimore also stresses that how you introduce creative problem solving is important. “Do not start by introducing a new company-wide innovation process,” he says. “Instead, encourage smaller teams to pursue specific creative projects, and then build a process from the ground up by emulating these smaller teams’ successful approaches. We say: ‘You don’t innovate by changing the culture, you change the culture by innovating.’”

Barriers to Effective Problem Solving

Learning how to effectively solve problems is difficult and takes time and continual adaptation. There are several common barriers to successful CPS, including:

  • Confirmation Bias: The tendency to only search for or interpret information that confirms a person’s existing ideas. People misinterpret or disregard data that doesn’t align with their beliefs.
  • Mental Set: People’s inclination to solve problems using the same tactics they have used to solve problems in the past. While this can sometimes be a useful strategy (see Analogical Thinking in a later section), it often limits inventiveness and creativity.
  • Functional Fixedness: This is another form of narrow thinking, where people become “stuck” thinking in a certain way and are unable to be flexible or change perspective.
  • Unnecessary Constraints: When people are overwhelmed with a problem, they can invent and impose additional limits on solution avenues. To avoid doing this, maintain a structured, level-headed approach to evaluating causes, effects, and potential solutions.
  • Groupthink: Be wary of the tendency for group members to agree with each other — this might be out of conflict avoidance, path of least resistance, or fear of speaking up. While this agreeableness might make meetings run smoothly, it can actually stunt creativity and idea generation, therefore limiting the success of your chosen solution.
  • Irrelevant Information: The tendency to pile on multiple problems and factors that may not even be related to the challenge at hand. This can cloud the team’s ability to find direct, targeted solutions.
  • Paradigm Blindness: This is found in people who are unwilling to adapt or change their worldview, outlook on a particular problem, or typical way of processing information. This can erode the effectiveness of problem solving techniques because they are not aware of the narrowness of their thinking, and therefore cannot think or act outside of their comfort zone.

According to Jaffa, the primary barrier of effective problem solving is rigidity. “The most common things people say are, ‘We’ve never done it before,’ or ‘We’ve always done it this way.’” While these feelings are natural, Jaffa explains that this rigid thinking actually precludes teams from identifying creative, inventive solutions that result in the greatest benefit.

“The biggest barrier to creative problem solving is a lack of awareness – and commitment to – training employees in state-of-the-art creative problem-solving techniques,” Mattimore explains. “We teach our clients how to use ideation techniques (as many as two-dozen different creative thinking techniques) to help them generate more and better ideas. Ideation techniques use specific and customized stimuli, or ‘thought triggers’ to inspire new thinking and new ideas.” 

MacLeod adds that ineffective or rushed leadership is another common culprit. “We're always in a rush to fix quickly,” she says. “Sometimes leaders just solve problems themselves, making unilateral decisions to save time. But the investment is well worth it — leaders will have less on their plates if they can teach and eventually trust the team to resolve. Teams feel empowered and engagement and investment increases.”

Strategies for Problem Cause Identification

As discussed, most experts agree that the first and most crucial step in problem solving is defining the problem. Once you’ve done this, however, it may not be appropriate to move straight to the solution phase. Rather, it is often helpful to identify the cause(s) of the problem: This will better inform your solution planning and execution, and help ensure that you don’t fall victim to the same challenges in the future. 

Below are some of the most common strategies for identifying the cause of a problem:

  • Root Cause Analysis: This method helps identify the most critical cause of a problem. A factor is considered a root cause if removing it prevents the problem from recurring. Performing a root cause analysis is a 12 step process that includes: define the problem, gather data on the factors contributing to the problem, group the factors based on shared characteristics, and create a cause-and-effect timeline to determine the root cause. After that, you identify and evaluate corrective actions to eliminate the root cause.

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Problem Solving Techniques and Strategies

In this section, we’ll explain several traditional and creative problem solving methods that you can use to identify challenges, create actionable goals, and resolve problems as they arise. Although there is often procedural and objective crossover among techniques, they are grouped by theme so you can identify which method works best for your organization.

Divergent Creative Problem Solving Techniques

Brainstorming: One of the most common methods of divergent thinking, brainstorming works best in an open group setting where everyone is encouraged to share their creative ideas. The goal is to generate as many ideas as possible – you analyze, critique, and evaluate the ideas only after the brainstorming session is complete. To learn more specific brainstorming techniques, read this article . 

Mind Mapping: This is a visual thinking tool where you graphically depict concepts and their relation to one another. You can use mind mapping to structure the information you have, analyze and synthesize it, and generate solutions and new ideas from there. The goal of a mind map is to simplify complicated problems so you can more clearly identify solutions.

Appreciative Inquiry (AI): The basic assumption of AI is that “an organization is a mystery to be embraced.” Using this principle, AI takes a positive, inquisitive approach to identifying the problem, analyzing the causes, and presenting possible solutions. The five principles of AI emphasize dialogue, deliberate language and outlook, and social bonding. 

Lateral Thinking: This is an indirect problem solving approach centered on the momentum of idea generation. As opposed to critical thinking, where people value ideas based on their truth and the absence of errors, lateral thinking values the “movement value” of new ideas: This means that you reward team members for producing a large volume of new ideas rapidly. With this approach, you’ll generate many new ideas before approving or rejecting any.

Problem Solving Techniques to Change Perspective

Constructive Controversy: This is a structured approach to group decision making to preserve critical thinking and disagreement while maintaining order. After defining the problem and presenting multiple courses of action, the group divides into small advocacy teams who research, analyze, and refute a particular option. Once each advocacy team has presented its best-case scenario, the group has a discussion (advocacy teams still defend their presented idea). Arguing and playing devil’s advocate is encouraged to reach an understanding of the pros and cons of each option. Next, advocacy teams abandon their cause and evaluate the options openly until they reach a consensus. All team members formally commit to the decision, regardless of whether they advocated for it at the beginning. You can learn more about the goals and steps in constructive controversy here . 

Carella is a fan of this approach. “Create constructive controversy by having two teams argue the pros and cons of a certain idea,” he says. “It forces unconscious biases to surface and gives space for new ideas to formulate.”

Abstraction: In this method, you apply the problem to a fictional model of the current situation. Mapping an issue to an abstract situation can shed extraneous or irrelevant factors, and reveal places where you are overlooking obvious solutions or becoming bogged down by circumstances. 

Analogical Thinking: Also called analogical reasoning , this method relies on an analogy: using information from one problem to solve another problem (these separate problems are called domains). It can be difficult for teams to create analogies among unrelated problems, but it is a strong technique to help you identify repeated issues, zoom out and change perspective, and prevent the problems from occurring in the future. .

CATWOE: This framework ensures that you evaluate the perspectives of those whom your decision will impact. The factors and questions to consider include (which combine to make the acronym CATWOE):

  • Customers: Who is on the receiving end of your decisions? What problem do they currently have, and how will they react to your proposed solution?
  • Actors: Who is acting to bring your solution to fruition? How will they respond and be affected by your decision?
  • Transformation Process: What processes will you employ to transform your current situation and meet your goals? What are the inputs and outputs?
  • World View: What is the larger context of your proposed solution? What is the larger, big-picture problem you are addressing?
  • Owner: Who actually owns the process? How might they influence your proposed solution (positively or negatively), and how can you influence them to help you?
  • Environmental Constraints: What are the limits (environmental, resource- and budget-wise, ethical, legal, etc.) on your ideas? How will you revise or work around these constraints?

Complex Problem Solving

Soft Systems Methodology (SSM): For extremely complex problems, SSM can help you identify how factors interact, and determine the best course of action. SSM was borne out of organizational process modeling and general systems theory, which hold that everything is part of a greater, interconnected system: This idea works well for “hard” problems (where logic and a single correct answer are prioritized), and less so for “soft” problems (i.e., human problems where factors such as personality, emotions, and hierarchy come into play). Therefore, SSM defines a seven step process for problem solving: 

  • Begin with the problem or problematic situation 
  • Express the problem or situation and build a rich picture of the themes of the problem 
  • Identify the root causes of the problem (most commonly with CATWOE)
  • Build conceptual models of human activity surrounding the problem or situation
  • Compare models with real-world happenings
  • Identify changes to the situation that are both feasible and desirable
  • Take action to implement changes and improve the problematic situation

SSM can be used for any complex soft problem, and is also a useful tool in change management . 

Failure Mode and Effects Analysis (FMEA): This method helps teams anticipate potential problems and take steps to mitigate them. Use FMEA when you are designing (redesigning) a complex function, process, product, or service. First, identify the failure modes, which are the possible ways that a project could fail. Then, perform an effects analysis to understand the consequences of each of the potential downfalls. This exercise is useful for internalizing the severity of each potential failure and its effects so you can make adjustments or safeties in your plan. 

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Problem Solving Based on Data or Logic (Heuristic Methods)

TRIZ: A Russian-developed problem solving technique that values logic, analysis, and forecasting over intuition or soft reasoning. TRIZ (translated to “theory of inventive problem solving” or TIPS in English) is a systematic approach to defining and identifying an inventive solution to difficult problems. The method offers several strategies for arriving at an inventive solution, including a contradictions matrix to assess trade-offs among solutions, a Su-Field analysis which uses formulas to describe a system by its structure, and ARIZ (algorithm of inventive problem solving) which uses algorithms to find inventive solutions. 

Inductive Reasoning: A logical method that uses evidence to conclude that a certain answer is probable (this is opposed to deductive reasoning, where the answer is assumed to be true). Inductive reasoning uses a limited number of observations to make useful, logical conclusions (for example, the Scientific Method is an extreme example of inductive reasoning). However, this method doesn’t always map well to human problems in the workplace — in these instances, managers should employ intuitive inductive reasoning , which allows for more automatic, implicit conclusions so that work can progress. This, of course, retains the principle that these intuitive conclusions are not necessarily the one and only correct answer. 

Process-Oriented Problem Solving Methods

Plan Do Check Act (PDCA): This is an iterative management technique used to ensure continual improvement of products or processes. First, teams plan (establish objectives to meet desired end results), then do (implement the plan, new processes, or produce the output), then check (compare expected with actual results), and finally act (define how the organization will act in the future, based on the performance and knowledge gained in the previous three steps). 

Means-End Analysis (MEA): The MEA strategy is to reduce the difference between the current (problematic) state and the goal state. To do so, teams compile information on the multiple factors that contribute to the disparity between the current and goal states. Then they try to change or eliminate the factors one by one, beginning with the factor responsible for the greatest difference in current and goal state. By systematically tackling the multiple factors that cause disparity between the problem and desired outcome, teams can better focus energy and control each step of the process. 

Hurson’s Productive Thinking Model: This technique was developed by Tim Hurson, and is detailed in his 2007 book Think Better: An Innovator’s Guide to Productive Thinking . The model outlines six steps that are meant to give structure while maintaining creativity and critical thinking: 1) Ask “What is going on?” 2) Ask “What is success?” 3) Ask “What is the question?” 4) Generate answers 5) Forge the solution 6) Align resources. 

Control Influence Accept (CIA): The basic premise of CIA is that how you respond to problems determines how successful you will be in overcoming them. Therefore, this model is both a problem solving technique and stress-management tool that ensures you aren’t responding to problems in a reactive and unproductive way. The steps in CIA include:

  • Control: Identify the aspects of the problem that are within your control.
  • Influence: Identify the aspects of the problem that you cannot control, but that you can influence.
  • Accept: Identify the aspects of the problem that you can neither control nor influence, and react based on this composite information. 

GROW Model: This is a straightforward problem solving method for goal setting that clearly defines your goals and current situation, and then asks you to define the potential solutions and be realistic about your chosen course of action. The steps break down as follows:

  • Goal: What do you want?
  • Reality: Where are you now?
  • Options: What could you do?
  • Will: What will you do?

OODA Loop: This acronym stands for observe, orient, decide, and act. This approach is a decision-making cycle that values agility and flexibility over raw human force. It is framed as a loop because of the understanding that any team will continually encounter problems or opponents to success and have to overcome them.

There are also many un-named creative problem solving techniques that follow a sequenced series of steps. While the exact steps vary slightly, they all follow a similar trajectory and aim to accomplish similar goals of problem, cause, and goal identification, idea generation, and active solution implementation.

MacLeod offers her own problem solving procedure, which echoes the above steps:

“1. Recognize the Problem: State what you see. Sometimes the problem is covert. 2. Identify: Get the facts — What exactly happened? What is the issue? 3. and 4. Explore and Connect: Dig deeper and encourage group members to relate their similar experiences. Now you're getting more into the feelings and background [of the situation], not just the facts.  5. Possible Solutions: Consider and brainstorm ideas for resolution. 6. Implement: Choose a solution and try it out — this could be role play and/or a discussion of how the solution would be put in place.  7. Evaluate: Revisit to see if the solution was successful or not.”

Many of these problem solving techniques can be used in concert with one another, or multiple can be appropriate for any given problem. It’s less about facilitating a perfect CPS session, and more about encouraging team members to continually think outside the box and push beyond personal boundaries that inhibit their innovative thinking. So, try out several methods, find those that resonate best with your team, and continue adopting new techniques and adapting your processes along the way. 

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Problem Solving Steps That Will Get You What You Want

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In every aspect of life, problems are bound to arise. In a workplace, problems can come in the form of client complaints or issues with teams. In a school setting, you may face problems with learning or teaching. And, in personal relationships, problems may take the most complex shapes and forms. Mastering problem solving steps can help you succeed in your career and more.

While every challenge is unique in its nature, there are a few methods to problem solving that are worthwhile to learn.

What is Problem Solving?

The four basic steps to problem solving are:

1. Define the Problem

It’s common to conflate symptoms of a problem with the problem itself. When understanding what the root of the problem is, be sure to ask the right questions. If you’re problem solving in a workplace, get team feedback. If you’re problem solving in school, ask for the help of other students.

2. Create Alternatives

Once you know the problem you’re facing, it’s good to consider possible solutions. Often, there are a variety of solutions to the same problem. Be sure to exhaust all possibilities. This is another step where feedback and teamwork is useful.

3. Choose a Solution

Assess which solution will work best for those involved. If it’s in a business, then you’ll likely have to address the costs and benefits of any given solution. For problem solving in school settings, you may want to ask professors or mentors what they think will be the most effective.

4. Implement the Solution

Once you’ve chosen the best solution to a problem, you can implement it. If more problems arise, you will have to solve the problem again. But don’t give up! Overcoming challenges only makes you stronger.

What are Problem Solving Skills?

While problem solving is a skill in itself, it also intersects with other skills. These skills include:

Active Listening

There’s a difference between hearing and actively listening. Active listening requires the listener to give undivided attention to the speaker. By using active listening, you maximize problem solving skills because you can actually understand the problem when someone explains it.

Analytical skills are crucial for problem solving. Everyone brings a different opinion and understanding of a problem to the table. By critically thinking about what’s actually happening, you can create the best solutions.

In businesses, big data is becoming everything. Using data and research, you can prevent problems before they even arise.

Sometimes, when facing a problem, you will also have constraints. In fact, the constraints could be what’s causing the problem. Utilizing creativity can help to overcome such challenges by thinking outside the box.

Communication

Talking about problems and accurately describing their roots will allow for contributions from your team. In this way, being able to properly communicate can help to hasten problem solving.

Decision-Making

Since challenges can have multiple solutions, you will need to know how to make a decision to implement the proper solution.

Team-Building

There are not many issues in life that require someone to be alone. Because of this, having a team with a strong foundation will help better address issues when they arise.

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Problem solving process: a 7-step process.

The following problem solving process is especially effective in businesses. When facing a challenge of any kind, leaders can rely on this method to come to a solution.

1. Identify the Issues

Different people may have different views on an issue. To identify the issues, allow everyone affected to share what they think is the problem.

2. Understand Interests

This is a critical step that is often overlooked. Once everyone has shared their views on a situation, it’s useful to analyze why they feel this way about it. In this step, you must be accepting of everyone’s differences. Understanding interests accurately also relies on active listening. By understanding interests, you will be able to better choose a solution that satisfies everyone’s needs.

3. Define the Problem

Defining the problem can easily be conflated by emotion. To efficiently solve problems, you should be objective rather than subjective. No matter if a problem is small like choosing what to eat or large like choosing your major in college , defining a problem accurately is the basis of solving it properly.

The Kipling Method: A well-known method to define a problem comes from Rudyard Kipling, a famous poet. The 6 necessary elements to describe a problem include:

  • What is the problem?
  • Why is it important to fix the problem?
  • When did the problem start? What is the deadline to fix it?
  • How did the problem begin? What’s its cause?
  • Where is the problem happening?
  • Who is affected by it?

4. Define the Goals

To solve a problem, you need to know what the goals are. In a team, it’s important that the goal is communicated. This way, everyone can work together to achieve the desired outcome.

5. Generate Solutions

Many times, a problem will have multiple solutions (unless it’s math)! To generate solutions, you can try these various methods:

  • Brainstorm: Allow everyone (even yourself) to share opinions on what they think can be a useful solution. Don’t shut down ideas in this stage. First, let everything come up with and then analyze what is actually feasible or practical.
  • Divide: Sometimes, problems are so big that they feel overwhelming and can lead to the fear of making a decision at all. Try to break down problems into smaller pieces to divide and conquer it in steps.
  • Means-Ends Analysis: To achieve a particular goal, you can work backwards. For example, you may want to become a software engineer. For this goal, you want to earn a degree in Computer Science , but the problem is affordability . With the goal of earning your higher education, you can think of alternative solutions like an online and tuition-free education (the University of the People). In this way, you’ve taken the outcome and worked backwards to find a solution.
  • Trial and Error: Problem solving often includes failure — but trial and error can lead to the best solutions. You have to be open to trying different solutions until you reach the right one through trial and error.

6. Evaluating the Best Solution

When assessing multiple solutions for a given problem, you obviously want to choose the best one. Here are some ways to do so.

  • Eliminate Early: Ineffective solutions should be removed early on. Sometimes, it’s obvious what won’t work. If not, define parameters and budgets. If something is too expensive to implement, then it can quickly be removed as a solution.
  • Develop a Decision Matrix: You can use a decision matrix to see solutions visually. You can create a scale, for example using the ratings 1-10. Then you can assign a percentage of importance to each criteria. Criteria can include: timeliness, cost, risk, manageability, for example. In this way, you can see what solution will be the best by creating this value system.
  • Implement and Follow Up: Trust your analysis and, once you choose a solution, implement it. Be sure to track and measure if it’s helping to achieve your desired goals.

7. Document

In a business setting, there are so many moving parts. It’s good practice to document problems and solutions to gauge their success. It also creates a history that one can refer back to down the line when the next problem comes to light.

Advantages of a Problem Solving Process

Having a problem solving process in place helps to alleviate stress. It also can provide the following benefits:

  • There is consistency across an organization for how to manage problems
  • The process promotes collaboration and teamwork
  • The decision-process is informed, and therefore easier
  • The solutions are rational and objective

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Activities and games to boost problem solving skills.

While problems themselves aren’t fun, there are fun ways to boost problem solving skills. These skills can be honed through games. Some problem solving games and ideas to practice to boost such skills include:

  • Build a tower
  • Scavenger hunts
  • Escape rooms
  • Human circle

Problem solving is not a one-size-fits-all situation. In different settings and with different people, problems look different. That’s because everyone approaches challenges from a different perspective.

However, there are basic needs in optimizing a problem solving process through problem solving steps. When facing any issue in your life, practice a positive mindset and start by defining the problem. By asking problem solving questions, you can generate solutions alone or alongside a supportive team.

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What is problem-solving and how to do it right steps, processes, exercises.

The better your problem-solving skills are, the better (and easier!) your life will be. Organized problem-solving is a killer career skill - learn all about it here.

Whether we’re trying to solve a technical problem at work, or trying to navigate around a roadblock that Google Maps doesn’t see – most people are problem-solving every single day . 

But how effective are you at tackling the challenges in your life? Do you have a bullet-proof process you follow that ensures solid outcomes, or... Do you act on a whim of inspiration (or lack thereof) to resolve your pressing problems?

Here’s the thing: the better your problem-solving skills are - the better (and easier!) your life will be (both professionally and personally). Organized problem-solving is a killer career (and life!) skill, so if you want to learn how to do it in the most efficient way possible, you’ve come to the right place.  

Read along to learn more about the steps, techniques and exercises of the problem-solving process.

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What is Problem-Solving?

We’re faced with the reality of having to solve problems every day, both in our private and professional lives. So why do we even need to learn about problem-solving? Aren’t we versed in it well enough already?

Well, what separates problem-solving from dealing with the usual day-to-day issues is that it’s a distinct process that allows you to go beyond the standard approaches to solving a problem and allows you to come up with more effective and efficient solutions. Or in other words, problem-solving allows you to knock out those problems with less effort. 

Just like with any other skill, there’s an efficient way to solve problems, and a non-efficient one. While it might be tempting to go for the quickest fix for your challenge without giving it much thought, it will only end up costing you more time down the road. Quick fixes are rarely (if ever!) effective and end up being massive time wasters. 

What separates problem-solving from dealing with the usual day-to-day issues is that it’s a distinct process that allows you to go beyond the standard approaches to solving a problem and allows you to come up with more effective and efficient solutions.

On the other hand, following a systemized clear process for problem-solving allows you to shortcut inefficiencies and time-wasters, turn your challenges into opportunities, and tackle problems of any scope without the usual stress and hassle. 

What is the process that you need to follow, then? We’re glad you asked...

The Five Stages of Problem-Solving

So what’s the best way to move through the problem-solving process? There’s a 5-step process that you can follow that will allow you to solve your challenges more efficiently and effectively. In short, you need to move through these 5 steps: 

  • Defining a problem
  • Ideating on a solution
  • Committing to a course of action
  • Implementing your solution
  • And finally – analyzing the results. 

The 5 stages of problem-solving

Let’s look at each of those stages in detail.

Step 1: Defining The Problem

The first step might sound obvious, but trust us, you don’t want to skip it! Clearly defining and framing your challenge will help you guide your efforts and make sure you’re focussing on the things that matter, instead of being distracted by a myriad of other options, problems and issues that come up. 

For once, you have to make sure you’re trying to solve the root cause, and not trying to mend the symptoms of it. For instance, if you keep losing users during your app onboarding process, you might jump to the conclusion that you need to tweak the process itself: change the copy, the screens, or the sequence of steps.

But unless you have clear evidence that confirms your hypothesis, your challenge might have an entirely different root cause, e.g. in confusing marketing communication prior to the app download. 

Clearly defining and framing your challenge will help you guide your efforts and make sure you’re focussing on the things that matter, all the while ensuring that you’re trying to solve the root cause, and not trying to mend the symptoms of it

That’s why it’s essential you take a close look at the entire problem, not just at a fraction of it.

There are several exercises that can help you get a broader, more holistic view of the problem, some of our all-time favorites include Expert Interviews, How Might We, or The Map. Check out the step-by-step instructions on how to run them (along with 5 more exercises for framing your challenge!) here. 

When in doubt, map out your challenge, and always try to tackle the bottlenecks that are more upstream - it’s likely that solving them will solve a couple of other challenges down the flow.

You also have to be mindful of how you frame the challenge: resist the urge to include a pre-defined solution into your problem statement. Priming your solutions to a predestined outcome destroys the purpose of following a step-by-step process in the first place!  

Steer clear of formulations like:

We need to change the onboarding process... or We need to improve ad copy to increase conversions. 

Instead, opt for more neutral, problem-oriented statements that don’t include a solution suggestion in them:

The drop off rate during the onboarding process is too high or Our ad conversion rates are below the norm.

Pro tip: Reframing your challenge as a ‘How Might We’ statement is a great way to spark up new ideas, opening your problem to a broader set of solutions, and is just a great way to reframe your problem into a more positive statement (without implying the possible solution!)

For example, following the onboarding drop-off rate problem we mentioned earlier, instead of framing it as a problem, you could opt for:

How Might We decrease the drop-off rate during the onboarding process? 

Find out more about the best exercises for problem framing here!

Now that you have a clear idea of what you’re trying to solve, it’s move on to the next phase of the problem-solving process.

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Step 2: ideating a solution.

Get ready to roll up your sleeves and challenge the status quo! This step of the problem-solving process is all about thinking outside of the box, challenging old assumptions, and thinking laterally. 

This stage is the one that tends to cause the most overwhelm in teams because it requires just the right balance of creativity and critical thinking, which tends to cause a lot of friction.

Our best advice?

Let go of the pressure to produce a polished, thought-through solution at this stage. You can hash out the details at a later point. Our goal right now is to come up with a direction, a prototype if you may, of where we want to move towards. 

Embrace the “quantity over quality” motto, and let your creative juices flow! Now, we’re not saying you should roll with sub-par ideas. But you shouldn’t get too fixated on feasibility and viability just yet . 

Your main goal during this step is to spark ideas, kick off your thinking process in the right direction, venture out of the familiar territories and think outside the box. 

For the ideation to be the most effective your team will have to feel safe to challenge the norm and wide-spread assumptions. So lay judgment by side, there is no space for “that’s the way it’s always been done” in this step.

For your ideation sessions to be as efficient as possible, we highly recommend to run them in a workshop setting: this helps reduce the usual drawbacks of open discussions in teams (i.e. groupthink & team politics!)

Our favorite exercises to run during this phase include Lightning Demos, Sketching, and variations of Brainstorming.  We crafted an entire article on how to run and facilitate these exercises in a separate article, so check it out of you’re going to be running an ideation session anytime soon!

Step 3: Choosing the Best Strategy & Committing

It’s time to decide which of the ideas that you generated in the last step will be the one you’ll implement. 

This step is arguably the hardest one to complete smoothly: groupthink, team politics, differences in opinions and communication styles all make it very hard to align a team on a common course of action. 

If you want to avoid the usual pitfalls of team decision-making, we recommend you steer clear of open unstructured discussion. While it’s useful in some scenarios, it’s a poor choice for when you need to make a decision, because it tends to reward the loudest people in the room, rather than give way to the best ideas. 

It’s crucial you not only commit to a course of action but get full buy-in from the team. If your team members don’t understand the reasons for a decision, or are not fully onboard, the implementation of your decision will be half-hearted, and that’s definitely not what you want! 

To achieve that, opt for anonymized, multi-layered voting, and include guided exercises like Storyboarding to prioritize your ideas. 

We’ve gathered the list of our top-rated decision-making exercises, along with step-by-step instructions on how to run them in this article!

As a bonus tip, we recommend you involve a facilitator throughout the entire process. They will help align the team, and guide them through prioritizing and de-prioritizing solutions, as well as defining the next steps. 

Pro tip : If you’re not the ultimate decision maker on the issue you’re trying to solve, make sure they’re in the room when the call is being made! Having a Decider in the room ensures that the decisions you come to will actually get executed on after, instead of getting shut down by your superiors after. 

Join our FREE community and connect with other Facilitators and Workshoppers

Step 4: implementing your solution.

Here’s a truth that might be hard to swallow: it doesn’t matter how innovative, creative, or original your idea is, if your execution is weak. 

One of our favourite illustrations of how this works in practice comes from the book “ Anything you want ” by Derek Sivers. He reveals that ideas should be treated as multipliers of execution. What this means is that a mediocre, “so-so” idea could be worth millions if executed well, while a “brilliant” idea can completely flop with bad execution. 

That’s why this step is crucial if you want to really master the problem-solving process. 

What do we mean by execution? Everything that happens after the whiteboards are wiped clean and your team starts to action the outcomes of your sessions, be it prototyping, development, or promotion. 

But don’t just take our word for it, look at the example of how execution affected Nintendo’s sales:

In the past few years, Nintendo has come up with 3 products: the Wii, the Wii U and the Switch. Check out their sales figures on the graph below - Wii is the clear-cut leader, followed by Switch, and finally Wii U lagging behind.

Nintendo's sales figure for 2018

The Wii was unbelievably successful - it was a genuinely unique, “brilliant”-level idea and it had a “brilliant” execution (20x $10 million = $200 million). It is  one of the fastest selling game consoles of all time and it completely took over the market.

The next product was called Wii U and it was a “great” concept but the execution was absolutely terrible. So even though this product was very interesting and innovative, the end result was 15x $1,000 = $15,000. 

Finally, Nintendo took the Wii U concept and tried it again with the Switch. The idea was “so so” as it was already done before, but the execution was “brilliant”. So, 5x $10 million = $50 million! Much better.

Excellent execution is more important than a good idea.

Bottom line?  

The same idea can either make no dent in the market and damage your share price OR become a market hit and increase your share price dramatically. The only difference between the two scenarios – execution.

So shift your focus from coming up with crazy, innovative, outlandish ideas that will disrupt the market, and concentrate on really nailing down your execution instead. 

This is likely the least “workshoppy” step out of the entire problem-solving process because it requires less alignment and decision-making and more..well.. Execution!

But hey, we wouldn’t be called “Workshopper” if we didn't offer you at least one way to optimize and workshopify (yup, we’re making it a thing) your execution process. 

Cue in….prototyping. 

We’re huge fans of prototyping all big solutions (and testing them!) The main reason?

This saves us time AND money! Prototyping and testing your solutions (especially if they’re time and investment-demanding) is a great way to make sure you’re creating something that is actually needed. 

The key with prototyping the right way is to keep it simple. Don’t invest too much time, or resources into it. The goal is to gather data for your future decisions, not to create a near-to-perfect mockup of your solution.  

There are LOADS of prototyping forms and techniques, and if you’d like to learn more on the subject you should definitely check out our extensive prototyping guide.  

Step 5: Analyzing the Results

You’re nearly done, woo! Now that you have defined the right problem to tackle, brainstormed the solutions, aligned your team on the course of action, and put your plan into action it’s time to take stock of your efforts. 

Seek feedback from all involved parties, analyze the data you’ve gathered, look at the bottom line of your efforts, and  take a hard look at your problem: did it get solved? And even more than that, did the process feel smoother, easier, and more efficient than it normally is?

Running a retrospective is a great way to highlight things that went well and that you should keep for your next round of problem.solving, as well as pinpoint inefficiencies that you can eliminate.

‍ But which kind of retrospective should you run? There are loads of options, and it’s easy to feel overwhelmed by them all, so we gathered our favorite retrospective variations in this article.

And there you have it, you just completed the cycle of  problem-solving. We highly recommend you follow through with all the steps, without leaving any out. They all complement and build on each other, and it’s the combination of all 5 of them that makes the process effective. 

Now that you have the problem solving process down, you might be wondering…

Do I need any special skills in order to be able to move through that process?

And the answer is… sort of! More in this in the next section.

Problem-Solving Skills 

While your skill set will need to adapt and change based on the challenges you’ll be working on, most efficient problem-solvers have a solid foundation of these key skills:   

  • Active listening. While you might be the expert in the area of your challenge, there’s not a single person on Earth that knows it all! Being open to others’ perspectives and practicing active listening will come in very handy during step 1 of the process, as you’re trying to define the scope and the exact angle of the problem you’re working on.
  • Analytical approach. Your analytical skills will help you understand problems and effectively develop solutions. You will also need analytical skills during research to help distinguish between effective and ineffective solutions.
  • Communication. Is there a single area of expertise that DOESN’T require strong communication skills? We honestly don’t think so! Just like with any other life area, clear communication can make or break your problem-solving process. Being able to clearly communicate why you need to solve this challenge to your team, as well as align your team on the course of action are crucial for the success of the process. 
  • Decision-making. Ultimately, you will need to make a decision about how to solve problems that arise. A process without outcomes–regardless of how well thought-out and elaborate–is useless! If you want your problem-solving huddles to be effective, you have to come to grips with prioritization techniques and decision-making frameworks. 
  • Facilitation. Problem-solving revolves around being able to guide a group or a team to a common decision, and facilitation skills are essential in making that happen. Knowing how to facilitate will make it easy to keep the group focussed on the challenge, shortcut circular discussions, and make sure you’re moving along to solving the problem instead of just treading waters with fruitless discussions. 

Not checking every single skill of your list just yet? Not to worry, the next section will give you practical tools on how to level up and improve your problem-solving skills.

How to Improve Your Problem-Solving Skills

Just like with any other skill, problem-solving is not an innate talent that you either have or you don’t.  There are concrete steps you can take to improve your skills. 

Here are some things that will get you closer to mastering the problem-solving process:

  • Practice, Practice, Practice

Practice makes perfect, and problem-solving skills are no exception! Seek opportunities to utilize and develop these skills any time you can. 

If you don’t know where or how to start just yet, here’s a suggestion that will get you up and running in no time: run a quick problem-solving session on a challenge that has been bothering your team for a while now. 

It doesn’t need to be the big strategic decision or the issue defining the future of the company. Something easy and manageable (like optimizing office space or improving team communication) will do. 

As you start feeling more comfortable with the problem-solving techniques, you can start tackling bigger challenges. Before you know it, you’ll master the art of creative problem-solving!

  • Use a tried and tested problem-solving workshop

Facilitation is one of the essential skills for problem-solving. But here’s the thing… Facilitation skills on their own won’t lead you to a solved challenge.

While being able to shortcut aimless discussions is a great skill, you have to make sure your problem-solving session has tangible outcomes. Using a tried and tested method, a workshop, is one of the easiest ways to do that. 

Our best advice is to get started with a tried and tested problem-solving workshop like the Lightning Decision Jam . The LDJ has all the right ingredients for quick, effective problem solving that leads to tangible outcomes. Give it a go!

  • Learn from your peers

You may have colleagues who are skilled problem solvers. Observing how those colleagues solve problems can help you improve your own skills. 

If possible, ask one of your more experienced colleagues if you can observe their techniques. Ask them relevant questions and try to apply as many of the new found skills i your career as possible. 

  • Learn & Practice the best problem-solving exercises

Having a toolbox of problem-solving exercises to pull from that can fit any type of challenge will make you a more versatile problem-solver and will make solving challenges that much easier for you! 

Once you get used to the groove of learning how to combine them into effective sessions or workshops, there’ll be no stopping you. What are some of the most effective problem-solving exercises? Glad you asked! We’ve gathered our favorite ones here, check it out! 

And there you have it, you’re now fully equipped for running creative problem-sessions with confidence and ease! Whichever method or exercise you choose, remember to keep track of your wins, and learn as much as you can from your losses! 

Anastasia Ushakova

Brand Strategist, Digital Marketer, and a Workshopper.

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Table of Contents

The problem-solving process, how to solve problems: 5 steps, train to solve problems with lean today, what is problem solving steps, techniques, & best practices explained.

What Is Problem Solving? Steps, Techniques, and Best Practices Explained

Problem solving is the art of identifying problems and implementing the best possible solutions. Revisiting your problem-solving skills may be the missing piece to leveraging the performance of your business, achieving Lean success, or unlocking your professional potential. 

Ask any colleague if they’re an effective problem-solver and their likely answer will be, “Of course! I solve problems every day.” 

Problem solving is part of most job descriptions, sure. But not everyone can do it consistently. 

Problem solving is the process of defining a problem, identifying its root cause, prioritizing and selecting potential solutions, and implementing the chosen solution.

There’s no one-size-fits-all problem-solving process. Often, it’s a unique methodology that aligns your short- and long-term objectives with the resources at your disposal. Nonetheless, many paradigms center problem solving as a pathway for achieving one’s goals faster and smarter. 

One example is the Six Sigma framework , which emphasizes eliminating errors and refining the customer experience, thereby improving business outcomes. Developed originally by Motorola, the Six Sigma process identifies problems from the perspective of customer satisfaction and improving product delivery. 

Lean management, a similar method, is about streamlining company processes over time so they become “leaner” while producing better outcomes. 

Trendy business management lingo aside, both of these frameworks teach us that investing in your problem solving process for personal and professional arenas will bring better productivity.

1. Precisely Identify Problems

As obvious as it seems, identifying the problem is the first step in the problem-solving process. Pinpointing a problem at the beginning of the process will guide your research, collaboration, and solutions in the right direction. 

At this stage, your task is to identify the scope and substance of the problem. Ask yourself a series of questions: 

  • What’s the problem? 
  • How many subsets of issues are underneath this problem? 
  • What subject areas, departments of work, or functions of business can best define this problem? 

Although some problems are naturally large in scope, precision is key. Write out the problems as statements in planning sheets . Should information or feedback during a later step alter the scope of your problem, revise the statements. 

Framing the problem at this stage will help you stay focused if distractions come up in later stages. Furthermore, how you frame a problem will aid your search for a solution. A strategy of building Lean success, for instance, will emphasize identifying and improving upon inefficient systems. 

2. Collect Information and Plan 

The second step is to collect information and plan the brainstorming process. This is another foundational step to road mapping your problem-solving process. Data, after all, is useful in identifying the scope and substance of your problems. 

Collecting information on the exact details of the problem, however, is done to narrow the brainstorming portion to help you evaluate the outcomes later. Don’t overwhelm yourself with unnecessary information — use the problem statements that you identified in step one as a north star in your research process. 

This stage should also include some planning. Ask yourself:

  • What parties will ultimately decide a solution? 
  • Whose voices and ideas should be heard in the brainstorming process? 
  • What resources are at your disposal for implementing a solution? 

Establish a plan and timeline for steps 3-5. 

3. Brainstorm Solutions

Brainstorming solutions is the bread and butter of the problem-solving process. At this stage, focus on generating creative ideas. As long as the solution directly addresses the problem statements and achieves your goals, don’t immediately rule it out. 

Moreover, solutions are rarely a one-step answer and are more like a roadmap with a set of actions. As you brainstorm ideas, map out these solutions visually and include any relevant factors such as costs involved, action steps, and involved parties. 

With Lean success in mind, stay focused on solutions that minimize waste and improve the flow of business ecosystems. 

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4. Decide and Implement

The most critical stage is selecting a solution. Easier said than done. Consider the criteria that has arisen in previous steps as you decide on a solution that meets your needs. 

Once you select a course of action, implement it. 

Practicing due diligence in earlier stages of the process will ensure that your chosen course of action has been evaluated from all angles. Often, efficient implementation requires us to act correctly and successfully the first time, rather than being hurried and sloppy. Further compilations will create more problems, bringing you back to step 1. 

5. Evaluate

Exercise humility and evaluate your solution honestly. Did you achieve the results you hoped for? What would you do differently next time? 

As some experts note, formulating feedback channels into your evaluation helps solidify future success. A framework like Lean success, for example, will use certain key performance indicators (KPIs) like quality, delivery success, reducing errors, and more. Establish metrics aligned with company goals to assess your solutions.

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Master the 7-Step Problem-Solving Process for Better Decision-Making

Discover the powerful 7-Step Problem-Solving Process to make better decisions and achieve better outcomes. Master the art of problem-solving in this comprehensive guide. Download the Free PowerPoint and PDF Template.

StrategyPunk

StrategyPunk

Master the 7-Step Problem-Solving Process for Better Decision-Making

Introduction

Mastering the art of problem-solving is crucial for making better decisions. Whether you're a student, a business owner, or an employee, problem-solving skills can help you tackle complex issues and find practical solutions. The 7-Step Problem-Solving Process is a proven method that can help you approach problems systematically and efficiently.

The 7-Step Problem-Solving Process involves steps that guide you through the problem-solving process. The first step is to define the problem, followed by disaggregating the problem into smaller, more manageable parts. Next, you prioritize the features and create a work plan to address each. Then, you analyze each piece, synthesize the information, and communicate your findings to others.

By following this process, you can avoid jumping to conclusions, overlooking important details, or making hasty decisions. Instead, you can approach problems with a clear and structured mindset, which can help you make better decisions and achieve better outcomes.

In this article, we'll explore each step of the 7-Step Problem-Solving Process in detail so you can start mastering this valuable skill. At the end of the blog post, you can download the process's free PowerPoint and PDF templates .

what is the first step of problem solving

Step 1: Define the Problem

The first step in the problem-solving process is to define the problem. This step is crucial because if the problem is not clearly defined, finding a solution won't be easy. The problem must be defined in a specific, measurable, and achievable way.

One way to define the problem is to ask the right questions. Questions like "What is the problem?" and "What are the causes of the problem?" can help to define the problem. It is also essential to gather data and information about the problem to assist in the definition process.

Another critical aspect of defining the problem is to identify the stakeholders. Who is affected by the problem? Who has a stake in finding a solution? Identifying the stakeholders can help ensure that the problem is defined in a way that considers the needs and concerns of all those affected by the problem.

Once the problem is defined, it is essential to communicate the definition to all stakeholders. This helps to ensure that everyone is on the same page and that there is a shared understanding of the problem.

Step 2: Disaggregate

After defining the problem, the next step in the 7-step problem-solving process is to disaggregate the problem into smaller, more manageable parts. Disaggregation helps break down the problem into smaller pieces that can be analyzed individually. This step is crucial in understanding the root cause of the problem and identifying the most effective solutions.

Disaggregation can be achieved by breaking down the problem into sub-problems, identifying the factors contributing to the problem, and analyzing the relationships between these factors. This step helps identify the most critical factors that must be addressed to solve the problem.

One effective way to disaggregate a problem is using a tree or fishbone diagram. These diagrams help identify the different factors contributing to the problem and how they are related. Another way is to use a table to list the other factors contributing to the problem and their corresponding impact on the problem.

Disaggregation helps in breaking down complex problems into smaller, more manageable parts. It helps understand the relationships between different factors contributing to the problem and identify the most critical factors that must be addressed. By disaggregating the problem, decision-makers can focus on the most vital areas, leading to more effective solutions.

Step 3: Prioritize

After defining the problem and disaggregating it into smaller parts, the next step in the 7-step problem-solving process is prioritizing the issues that need addressing. Prioritizing helps to focus on the most pressing issues and allocate resources more effectively.

There are several ways to prioritize issues, including:

  • Urgency: Prioritize issues based on how urgent they are. Problems that require immediate attention should be dealt with first.
  • Impact: Prioritize issues based on their impact on the organization or stakeholders. Problems that have a high effect should be given priority.
  • Resources: Prioritize issues based on the resources required to address them. Problems that require fewer resources should be dealt with first.

It is important to involve stakeholders in the prioritization process to consider their concerns and needs. This can be done through surveys, focus groups, or other forms of engagement.

Once the issues have been prioritized, developing a plan of action to address them is essential. This involves identifying the resources required, setting timelines, and assigning responsibilities.

Prioritizing issues is a critical step in the problem-solving process. Organizations can allocate resources more effectively and make better decisions by focusing on the most pressing issues.

Step 4: Workplan

After defining the problem, disaggregating, and prioritizing the issues, the next step in the 7-step problem-solving process is to develop a work plan. This step involves creating a roadmap that outlines the steps needed to solve the problem.

The work plan should include a list of tasks, deadlines, and responsibilities for each team member involved in the problem-solving process. Assigning tasks based on each team member's strengths and expertise ensures the work is completed efficiently and effectively.

Creating a work plan can help keep the team on track and ensure everyone is working towards the same goal. It can also help to identify potential roadblocks or challenges that may arise during the problem-solving process and develop contingency plans to address them.

Several tools and techniques can be used to develop a work plan, including Gantt charts, flowcharts, and mind maps. These tools can help to visualize the steps needed to solve the problem and identify dependencies between tasks.

Developing a work plan is a critical step in the problem-solving process. It provides a clear roadmap for solving the problem and ensures everyone involved is aligned and working towards the same goal.

Step 5: Analysis

Once the problem has been defined and disaggregated, the next step is to analyze the information gathered. This step involves examining the data, identifying patterns, and determining the root cause of the problem.

Several methods can be used during the analysis phase, including:

  • Root cause analysis
  • Pareto analysis
  • SWOT analysis

Root cause analysis is a popular method used to identify the underlying cause of a problem. This method involves asking a series of "why" questions to get to the root cause of the issue.

Pareto analysis is another method that can be used during the analysis phase. This method involves identifying the 20% of causes responsible for 80% of the problems. By focusing on these critical causes, organizations can make significant improvements.

Finally, SWOT analysis is a valuable tool for analyzing the internal and external factors that may impact the problem. This method involves identifying the strengths, weaknesses, opportunities, and threats related to the issue.

Overall, the analysis phase is critical for identifying the root cause of the problem and developing practical solutions. Organizations can gain a deeper understanding of the issue and make informed decisions by using a combination of methods.

Step 6: Synthesize

Once the analysis phase is complete, it is time to synthesize the information gathered to arrive at a solution. During this step, the focus is on identifying the most viable solution that addresses the problem. This involves examining the analysis results and combining them to lead to a clear and concise conclusion.

One way to synthesize the information is to use a decision matrix. This involves creating a table that lists the potential solutions and the essential criteria in making a decision. Each answer is then rated against each standard, and the scores are tallied to arrive at a final decision.

Another approach to synthesizing the information is to use a mind map. This involves creating a visual representation of the problem and the potential solutions. The mind map can identify the relationships between the different pieces of information andhelp prioritize the solutions.

During the synthesis phase, remaining open-minded and considering all potential solutions is vital. It is also essential to involve all stakeholders in the decision-making process to ensure that everyone's perspectives are considered.

Step 7: Communicate

After synthesizing the information, the next step is communicating the findings to the relevant stakeholders. This is a crucial step because it helps to ensure that everyone is on the same page and that the decision-making process is transparent.

One effective way to communicate the findings is through a well-organized report. The report should include the problem statement, the analysis, the synthesis, and the recommended solution. It should be clear, concise, and easy to understand.

In addition to the report, it is also essential to have a presentation that explains the findings. The presentation should be tailored to the audience and highlight the report's key points. Visual aids such as tables, graphs, and charts can make the presentation more engaging.

During the presentation, it is essential to be open to feedback and questions from the audience. This helps ensure everyone is on board with the recommended solution and addresses any concerns or objections.

Effective communication is vital to ensuring the decision-making process is successful. Stakeholders can make informed decisions and work towards a common goal by communicating the findings clearly and concisely.

The 7-step problem-solving process is a powerful tool that can help individuals and organizations make better decisions. By following these steps, individuals can identify the root cause of a problem, prioritize potential solutions, and develop a clear plan of action. This process can be applied to various scenarios, from personal challenges to complex business problems.

Individuals can break down complex problems into smaller, more manageable parts through disaggregation. Individuals can focus their efforts on the most impactful actions by prioritizing potential solutions. The work step allows individuals to develop a clear action plan, while the analysis step provides a framework for evaluating possible solutions.

The synthesis step is where individuals combine all the information they have gathered to develop a comprehensive solution. Finally, the communication step allows individuals to share their answers with others and gather feedback.

By mastering the 7-step problem-solving process, individuals can become more effective decision-makers and problem-solvers. This process can help individuals and organizations save time and resources while improving outcomes. With practice, individuals can develop the skills to apply this process to a wide range of scenarios and make better decisions in all areas of life.

7-Step Problem-Solving Process 

Free powerpoint and pdf template, executive summary: the 7-step problem-solving process.

what is the first step of problem solving

The 7-Step Problem-Solving Process is a powerful and systematic method to help individuals and organizations make better decisions by tackling complex issues and finding practical solutions. This process comprises defining the problem, disaggregating it into smaller parts, prioritizing the issues, creating a work plan, analyzing the data, synthesizing the information, and communicating the findings.

By following these steps, individuals can identify the root cause of a problem, break it down into manageable components, and prioritize the most impactful actions. The work plan, analysis, and synthesis steps provide a framework for developing comprehensive solutions, while the communication step ensures transparency and stakeholder engagement.

Mastering this process can improve decision-making and problem-solving capabilities, saving time and resources and better outcomes in both personal and professional contexts.

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Dr. Josh Axe is the co-founder of Ancient Nutrition and the founder and CEO of Leaders.com. He earned his doctorate...

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Colin Baker

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Colin Baker is a business writer for Leaders Media. He has a background in as a television journalism, working as...

What Is Problem-Solving? How to Use Problem-Solving Skills to Resolve Issues

What is problem-solving, what is the general process of problem-solving, the best problem-solving strategies and tools, what to do when a problem feels too big to solve.

Great businesses don’t exist to simply grow and make money. Instead, they solve the world’s problems , from tiny issues to giant dilemmas. Problem-solving is essentially the main function of organizations. An effective organization will have systems and processes in place to reach their goals and solve problems. If a company has team members and leaders who have poor problem-solving skills, that means they’re ineffective at one of the core functions of a business.

You need to be good at both external problem-solving (solving problems for others) and internal problem-solving (solving problems before or when they arise within the business). An organization that can solve problems will see its teams come closer together as they bond over providing solutions to serious issues. Companies that solve problems well will also be able to carry out their purpose more efficiently.

Learn the steps you can follow to solve problems both great and small. Additionally, discover some real-world methods and problem-solving skills successful business leaders use to solve problems of their own.

Problem-solving involves the search for solutions that follow an effective process of discovery, identification, ideation, and execution. Problem-solving usually requires overcoming numerous obstacles that stand in the way of reaching your goal. Often, the act of problem-solving includes coming up with solutions to many smaller problems before eventually solving the main issue that prompted the process in the first place.

The key to cultivating excellent problem-solving skills is having a distinct process designed to produce solutions. While it may seem like problem-solving involves a complex strategy, it features several steps that are easy to follow. The following steps represent a general problem-solving process you can use when you need to find a solution.

1. Define the Problem

The first step to take as part of the problem-solving process involves defining what that problem is. While this may seem like a simple idea to follow, the key is to get to the root of the problem . Only once you’re able to identify the root issue you’re tackling through a root cause analysis can you be sure you’re on the right path. Sometimes the surface issue isn’t what you need to address. Just like an earthquake, organizational issues have an epicenter—complete with shockwaves that negatively impact the business. If you don’t resolve the core problem, it can expand , and the damage becomes detrimental. All problem-solving jobs begin with this important first step.

If your organization has a problem with employee retention , you may think you’ll solve it by increasing pay or perks. However, that might not address the root of the issue. If you were to investigate further, you may discover that a manager is creating a toxic work environment, causing good employees to find work elsewhere. 

2. Brainstorm Possible Solutions

Once you have a solid idea of what the real problem is, you can proceed to create possible solutions you can pursue. Take the time to brainstorm different solutions. No two problems are the same, and each one will require a creative approach. Make sure you write down the alternative solutions so you can research them in depth. During the course of your brainstorming, you may stumble upon a solution you wouldn’t have thought of otherwise.

As you follow this step, you may need to find the best way to inspire your critical thinking skills. Think about when and where you generate ideas and get the creative juices flowing. Then, try to put yourself in that environment as often as possible.

Sara Blakely , the founder of SPANX®, says her most productive creative thinking happens when she’s driving in her car . Even though she doesn’t have a real commute, she gets in the car and makes one up. “I live really close to Spanx,” she said on the “Masters of Scale” podcast, “so I’ve created what my friends call my ‘fake commute,’ and I get up an hour early before I’m supposed to go to Spanx, and I drive around aimlessly in Atlanta with my commute so that I can have my thoughts come to me.” As a result, she sets time aside for developing her best problem-solving strategies every single day.

3. Research Several Options

After you’ve come up with several possible alternative solutions, pick two or three that seem the most promising using your analytical skills. Then you’ll need to buckle down and do some research to see which one to pursue. Conduct your research using primary and secondary resources.

Conduct primary research by:

  • Having a discussion with a mentor
  • Interviewing a person who’s successfully solved this problem before
  • Strategizing with team members closest to the issue

Great secondary sources include:

  • Trustworthy online articles and news sources from credible websites
  • Leadership books from experts who have written about the problem
  • Business podcast interviews on the issue
  • YouTube videos featuring established leaders

4. Select a Solution

At the conclusion of your research, you’ll be better equipped to select the right solution. Evaluate the data you have gathered. To ensure you make a good pick, you’ll need to keep several considerations in mind. 

Here are some good questions to ask when picking a solution:

  • Is this solution in line with the company’s core values?
  • Is it a realistic option?
  • Could it lead to additional problems?
  • Will everyone involved accept the solution?
  • Does it truly solve the problem, or does it only delay negative effects?

As you employ your creative thinking skills in answering these questions, you’ll eventually need to settle on a single solution. Adhering to a decision-making process helps you objectively choose the best solution out of many options. Don’t make a quick decision you may later regret. Be deliberate in your analysis, and try to remain as objective as possible.

In order to make the most objective decision:

  • Get into a humble mindset and make sure you’re willing to listen and learn.
  • Don’t let emotions influence the choice.
  • Reverse-engineer the possible outcome of any given solution.
  • Weigh the pros and cons of each choice.
  • Seek wise counsel from trusted mentors, leaders, and team members.

5. Develop an Action Plan

Once you’ve settled on a solution, you’ll be ready to pursue it. Before moving too quickly, revisit step one and make sure your choice aligns with the main objective . If it doesn’t, although it may be a valid choice, it’s most likely not the best for your team. If this is the case, don’t get discouraged. Creative problem-solving takes time.

When the right choice is made, and the solution is placed into the overall strategy, start developing an action plan . Lay out the “who,” “what,” “when,” “why,” and “how.” Visualize exactly what success looks like with this new plan. When working through the problem-solving process, write all the details down. This helps leaders construct action items and delegate them accordingly. Never leave this part of the process empty-handed. Your team needs a clear picture of expectations so they can properly implement the solution. And if everything works, you can use this problem-solving model in the future.

You will undoubtedly encounter many problems that need to be solved in your life. There are a variety of ways to solve those problems. With all the problem-solving techniques out there, it can be helpful to learn some of them so you can employ the best one at the right moment. The following are just a few examples of what these strategies and problem-solving tools look like in the real world.

One of the best ways to discover the root cause of a problem is by utilizing the 5 Whys method. This strategy was developed by Sakichi Toyoda, founder of Toyota Industries. It’s as simple as it sounds. When a problem occurs, ask why it happened five times. In theory, the last answer should get to the heart of the issue.

Here’s an example of how the 5 Whys work in action:

what is the first step of problem solving

When business leaders use the 5 Whys method , problems are given more context. Uncovering how, when, and why they happen helps company owners and executives identify the organization’s core issues.

First Principles Thinking

When one engages in first principles thinking , they end up questioning what everyone just assumes to be true. It effectively removes those assumptions , breaking things down into their most basic elements that are probably true. It’s all about getting to that core foundation of truth and building out from there. Problem-solving skills should always include first principles thinking.

Elon Musk most famously pursued this strategy when it comes to space travel. Instead of accepting that building a rocket was too expensive, he got to the fundamental truths of construction, all the way down to pricing each component. Musk once explained that he follows first principles thinking by following three simple steps .

  • Identify the assumptions
  • Break down the issue into its core, fundamental components
  • Innovate by creating new solutions

Other business leaders have engaged in similar strategies, such as Jeff Bezos when he advised the need for finding out key truths for yourself. First principles thinking is an important part of innovating beyond what we assume can’t be changed. It’s a way to use analytical skills to discover potential solutions through constant learning and acquiring new information.

Steve Jobs’ Problem-Solving Method

Steve Jobs gained a reputation for solving problems through Apple. He was always on the lookout for simple solutions to complex problems. He followed his own three-step method that helped him tackle difficult issues.

  • Zoom Out: When facing a problem, zoom out to get a larger view of the bigger picture. This is another way to help you define the problem and pinpoint the root cause.
  • Focus In: After defining the problem, focus all your attention on solving it. Concentrate your efforts, and don’t stop until the problem is fixed. Give yourself a period of intense focus and dedication as you bring the solution to life.
  • Disconnect: If things aren’t proceeding the way you thought they would, it may be time to disconnect. That means walking away and giving yourself a break so you can clear your mind. Sometimes, a break is all you need to approach the problem once more, this time from a fresh angle with your mind fully reenergized.

From increasing sales to engaging in conflict resolution , business leaders have a lot of problems to solve. However, some people may still feel overwhelmed, especially if the problem is large in scope and could even threaten to close the company. Fortunately, there are steps you can take to get in the right mindset as outlined by James Clear, author of Atomic Habits :

  • Break the bigger problem down into a lot of smaller problems
  • Focus on one small problem and solve it
  • Use what you learned from solving that problem to increase your knowledge about the bigger problem
  • Repeat these steps until the larger problem is solved

Tackling a problem that feels too big to solve requires a can-do, positive mindset. In order to improve your problem-solving, you’ll need to take remember these steps. Imagine what is possible instead of focusing on what seems impossible. As you do so, you’ll become skilled in solving all sorts of problems while also improving your decision-making.

For more help in growing your skillset, check out the following article:

Growth Mindset: Creating an Environment for Innovation

Leaders Media has established sourcing guidelines and relies on relevant, and credible sources for the data, facts, and expert insights and analysis we reference. You can learn more about our mission, ethics, and how we cite sources in our editorial policy .

  • Abadi, Mark. “The CEO of Spanx Wakes up an Hour Early to Drive around ‘Aimlessly’ on a ‘Fake Commute’ Because She Does Her Best Thinking in the Car.”  Insider , 15 Nov. 2018, https://www.businessinsider.com/spanx-ceo-sara-blakely-fake-commute-2018-11.
  • Oshin, Mayo. “Elon Musks’ ‘3-Step’ First Principles Thinking: How to Think and Solve Difficult Problems Like A….”  Mission.Org , 2 Nov. 2020, https://medium.com/the-mission/elon-musks-3-step-first-principles-thinking-how-to-think-and-solve-difficult-problems-like-a-ba1e73a9f6c0.
  • Clear, James. “How to Solve Big Problems.”  James Clear , 25 July 2014, https://jamesclear.com/narrow-focus.
  • Nast, C. (n.d.). WIRED. https://www.wired.com/2012/10/ff-elon-musk-qa/all/
  • Just a moment. . . (n.d.). https://www.indeed.com/career-advice/career-development/5-whys-example
  • inc.com . (n.d.). https://www.inc.com/kelly-main/apple-steve-jobs-problem-solving.html
  • How to find your big idea . (2022, October 6). Masters of Scale. https://mastersofscale.com/sara-blakely-how-to-find-your-big-idea/
  • EX-99.1 . (n.d.). https://www.sec.gov/Archives/edgar/data/1018724/000119312517120198/d373368dex991.htm

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what is the first step of problem solving

The Five-Step Problem-Solving Process

Sometimes when you’re faced with a complex problem, it’s best to pause and take a step back. A break from…

The Five Step Problem Solving Process

Sometimes when you’re faced with a complex problem, it’s best to pause and take a step back. A break from routine will help you think creatively and objectively. Doing too much at the same time increases the chances of burnout.

Solving problems is easier when you align your thoughts with your actions. If you’re in multiple places at once mentally, you’re more likely to get overwhelmed under pressure. So, a problem-solving process follows specific steps to make it approachable and straightforward. This includes breaking down complex problems, understanding what you want to achieve, and allocating responsibilities to different people to ease some of the pressure.

The problem-solving process will help you measure your progress against factors like budget, timelines and deliverables. The point is to get the key stakeholders on the same page about the ‘what’, ‘why’ and ‘how’ of the process. ( Xanax ) Let’s discuss the five-step problem-solving process that you can adopt.

Problems at a workplace need not necessarily be situations that have a negative impact, such as a product failure or a change in government policy. Making a decision to alter the way your team works may also be a problem. Launching new products, technological upgrades, customer feedback collection exercises—all of these are also “problems” that need to be “solved”.

Here are the steps of a problem-solving process:

1. Defining the Problem

The first step in the process is often overlooked. To define the problem is to understand what it is that you’re solving for. This is also where you outline and write down your purpose—what you want to achieve and why. Making sure you know what the problem is can make it easier to follow up with the remaining steps. This will also help you identify which part of the problem needs more attention than others.

2. Analyzing the Problem

Analyze why the problem occurred and go deeper to understand the existing situation.  If it’s a product that has malfunctioned, assess factors like raw material, assembly line, and people involved to identify the problem areas. This will help you figure out if the problem will persist or recur. You can measure the solution against existing factors to assess its future viability.

3. Weighing the Options

Once you’ve figured out what the problem is and why it occurred, you can move on to generating multiple options as solutions. You can combine your existing knowledge with research and data to come up with viable and effective solutions. Thinking objectively and getting inputs from those involved in the process will broaden your perspective of the problem. You’ll be able to come up with better options if you’re open to ideas other than your own.

4. Implementing The Best Solution

Implementation will depend on the type of data at hand and other variables. Consider the big picture when you’re selecting the best option. Look at factors like how the solution will impact your budget, how soon you can implement it, and whether it can withstand setbacks or failures. If you need to make any tweaks or upgrades, make them happen in this stage.

5. Monitoring Progress

The problem-solving process doesn’t end at implementation. It requires constant monitoring to watch out for recurrences and relapses. It’s possible that something doesn’t work out as expected on implementation. To ensure the process functions smoothly, you can make changes as soon as you catch a miscalculation. Always stay on top of things by monitoring how far you’ve come and how much farther you have to go.

You can learn to solve any problem—big or small—with experience and patience. Adopt an impartial and analytical approach that has room for multiple perspectives. In the workplace, you’re often faced with situations like an unexpected system failure or a key employee quitting in the middle of a crucial project.

Problem-solving skills will help you face these situations head-on. Harappa Education’s Structuring Problems course will show you how to classify and categorize problems to discover effective solutions. Equipping yourself with the right knowledge will help you navigate work-related problems in a calm and competent manner.

Explore topics such as  Problem Solving , the  PICK Chart ,  How to Solve Problems  & the  Barriers to Problem Solving  from our Harappa Diaries blog section and develop your skills.

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The 5 Steps of Problem Solving

5-steps-of-problem-solving-humor-that-works-3

Problem solving is a critical skill for success in business – in fact it’s often what you are hired and paid to do. This article explains the five problem solving steps and provides strategies on how to execute each one.

Defining Problem Solving

Before we talk about the stages of problem solving, it’s important to have a definition of what it is. Let’s look at the two roots of problem solving — problems and solutions.

Problem – a state of desire for reaching a definite goal from a present condition [1] Solution – the management of a problem in a way that successfully meets the goals set for treating it

[1] Problem solving on Wikipedia

One important call-out is the importance of having a goal. As defined above, the solution may not completely solve problem, but it does meet the goals you establish for treating it–you may not be able to completely resolve the problem (end world hunger), but you can have a goal to help it (reduce the number of starving children by 10%).

The Five Steps of Problem Solving

With that understanding of problem solving, let’s talk about the steps that can get you there. The five problem solving steps are shown in the chart below:

problem solving steps

However this chart as is a little misleading. Not all problems follow these steps linearly, especially for very challenging problems. Instead, you’ll likely move back and forth between the steps as you continue to work on the problem, as shown below:

problem solving steps iterative

Let’s explore of these steps in more detail, understanding what it is and the inputs and outputs of each phase.

1. Define the Problem

aka What are you trying to solve? In addition to getting clear on what the problem is, defining the problem also establishes a goal for what you want to achieve.

Input:  something is wrong or something could be improved. Output: a clear definition of the opportunity and a goal for fixing it.

2. Brainstorm Ideas

aka What are some ways to solve the problem? The goal is to create a list of possible solutions to choose from. The harder the problem, the more solutions you may need.

Input: a goal; research of the problem and possible solutions; imagination. Output: pick-list of possible solutions that would achieve the stated goal.

3. Decide on a Solution

aka What are you going to do? The ideal solution is effective (it will meet the goal), efficient (is affordable), and has the fewest side effects (limited consequences from implementation).

Input:  pick-list of possible solutions; decision-making criteria. Output: decision of what solution you will implement.

4. Implement the Solution

aka What are you doing? The implementation of a solution requires planning and execution. It’s often iterative, where the focus should be on short implementation cycles with testing and feedback, not trying to get it “perfect” the first time.

Input:  decision; planning; hard work. Output:  resolution to the problem.

5. Review the Results

aka What did you do? To know you successfully solved the problem, it’s important to review what worked, what didn’t and what impact the solution had. It also helps you improve long-term problem solving skills and keeps you from re-inventing the wheel.

Input:  resolutions; results of the implementation. Output: insights; case-studies; bullets on your resume.

Improving Problem Solving Skills

Once you understand the five steps of problem solving, you can build your skill level in each one. Often we’re naturally good at a couple of the phases and not as naturally good at others. Some people are great at generating ideas but struggle implementing them. Other people have great execution skills but can’t make decisions on which solutions to use. Knowing the different problem solving steps allows you to work on your weak areas, or team-up with someone who’s strengths complement yours.

Want to improve your problem solving skills? Want to perfect the art of problem solving?  Check out our training programs or try these 20 problem solving activities to improve creativity .

THIS FREE 129 SECOND QUIZ WILL SHOW YOU

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22 thoughts on “The 5 Steps of Problem Solving”

what is the first step of problem solving

very helpful and informative training

what is the first step of problem solving

Thank you for the information

what is the first step of problem solving

YOU ARE AFOOL

what is the first step of problem solving

I’m writing my 7th edition of Effective Security Management. I would like to use your circular graphic illustration in a new chapter on problem solving. You’re welcome to phone me at — with attribution.

what is the first step of problem solving

Sure thing, shoot us an email at [email protected] .

what is the first step of problem solving

i love your presentation. It’s very clear. I think I would use it in teaching my class problem solving procedures. Thank you

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It is well defined steps, thank you.

what is the first step of problem solving

these step can you email them to me so I can print them out these steps are very helpful

what is the first step of problem solving

I like the content of this article, it is really helpful. I would like to know much on how PAID process (i.e. Problem statement, Analyze the problem, Identify likely causes, and Define the actual causes) works in Problem Solving.

what is the first step of problem solving

very useful information on problem solving process.Thank you for the update.

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what is the first step of problem solving

It makes sense that a business would want to have an effective problem solving strategy. Things could get bad if they can’t find solutions! I think one of the most important things about problem solving is communication.

what is the first step of problem solving

Well in our school teacher teach us –

1) problem ldentification 2) structuring the problem 3) looking for possible solutions 4) lmplementation 5) monitoring or seeking feedback 6) decision making

Pleace write about it …

what is the first step of problem solving

I teach Professional communication (Speech) and I find the 5 steps to problem solving as described here the best method. Your teacher actually uses 4 steps. The Feedback and decision making are follow up to the actual implementation and solving of the problem.

what is the first step of problem solving

i know the steps of doing some guideline for problem solving

what is the first step of problem solving

steps are very useful to solve my problem

what is the first step of problem solving

The steps given are very effective. Thank you for the wonderful presentation of the cycle/steps/procedure and their connections.

what is the first step of problem solving

I like the steps for problem solving

what is the first step of problem solving

It is very useful for solving difficult problem i would reccomend it to a friend

what is the first step of problem solving

this is very interesting because once u have learned you will always differentiate the right from the wrong.

what is the first step of problem solving

I like the contents of the problem solving steps. informative.

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8-step problem solving process, organizational effectiveness.

121 University Services Building, Suite 50 Iowa City , IA 52242-1911 United States

Step 1: Define the Problem

  • What is the problem?
  • How did you discover the problem?
  • When did the problem start and how long has this problem been going on?
  • Is there enough data available to contain the problem and prevent it from getting passed to the next process step? If yes, contain the problem.

Step 2: Clarify the Problem

  • What data is available or needed to help clarify, or fully understand the problem?
  • Is it a top priority to resolve the problem at this point in time?
  • Are additional resources required to clarify the problem? If yes, elevate the problem to your leader to help locate the right resources and form a team. 
  •  Consider a Lean Event (Do-it, Burst, RPI, Project).
  • ∙Ensure the problem is contained and does not get passed to the next process step.

Step 3: Define the Goals

  • What is your end goal or desired future state?
  • What will you accomplish if you fix this problem?
  • What is the desired timeline for solving this problem?

Step 4: Identify Root Cause of the Problem

  • Identify possible causes of the problem.
  • Prioritize possible root causes of the problem.
  • What information or data is there to validate the root cause?

Step 5: Develop Action Plan

  • Generate a list of actions required to address the root cause and prevent problem from getting to others.
  • Assign an owner and timeline to each action.
  • Status actions to ensure completion.

Step 6: Execute Action Plan

  • Implement action plan to address the root cause.
  • Verify actions are completed.

Step 7: Evaluate the Results

  • Monitor and Collect Data.
  • Did you meet your goals defined in step 3? If not, repeat the 8-Step Process. 
  • Were there any unforeseen consequences?
  • If problem is resolved, remove activities that were added previously to contain the problem.

Step 8: Continuously Improve

  • Look for additional opportunities to implement solution.
  • Ensure problem will not come back and communicate lessons learned.
  • If needed, repeat the 8-Step Problem Solving Process to drive further improvements.
Kaizen is about changing the way things are. If you assume that things are all right the way they are, you can’t do kaizen. So change something! —Taiichi Ohno

Inspect and Adapt

Inspect & adapt: overview.

what is the first step of problem solving

The Inspect and Adapt (I&A) is a significant event held at the end of each PI, where the current state of the Solution is demonstrated and evaluated. Teams then reflect and identify improvement backlog items via a structured problem-solving workshop.

The Agile Manifesto emphasizes the importance of continuous improvement through the following principle: “At regular intervals, the team reflects on how to become more effective, then tunes and adjusts its behavior accordingly.”

In addition, SAFe includes ‘relentless improvement’ as one of the four SAFe Core Values as well as a dimension of the Continuous Learning Culture core competency. While opportunities to improve can and should occur continuously throughout the PI (e.g., Iteration Retrospectives ), applying some structure, cadence, and synchronization helps ensure that there is also time set aside to identify improvements across multiple teams and Agile Release Trains .

All ART stakeholders participate along with the Agile Teams in the I&A event. The result is a set of improvement backlog items that go into the ART Backlog for the next PI Planning event. In this way, every ART improves every PI. A similar I&A event is held by Solution Trains .

The I&A event consists of three parts:

PI System Demo

  • Quantitative and qualitative measurement
  • Retrospective and problem-solving workshop

Participants in the I&A should be, wherever possible, all the people involved in building the solution. For an ART, this includes:

  • The Agile teams
  • Release Train Engineer (RTE)
  • System and Solution Architects
  • Product Management ,  Business Owners , and other stakeholders

Additionally, Solution Train stakeholders may also attend this event.

The PI System Demo is the first part of the I&A, and it’s a little different from the regular system demos after every iteration. This demo shows all the Features the ART has developed during the PI. Typically the audience is broader; for example, Customers or Portfolio representatives are more likely to attend this demo. Therefore, the PI system demo tends to be a little more formal, and extra preparation and setup are usually required. But like any other system demo, it should be timeboxed to an hour or less, with the level of abstraction high enough to keep stakeholders actively engaged and providing feedback.

Before or as part of the PI system demo, Business Owners collaborate with each Agile Team to score the actual business value achieved for each of their Team PI Objectives , as illustrated in Figure 1.

The achievement score is calculated by separately totaling the business value for the plan and actual columns. The uncommitted objectives are not included in the total plan. However, they are part of the total actual. Then divide the actual total by the planned total to calculate the achievement score illustrated in Figure 1.

Quantitative and Qualitative Measurement

In the second part of the I&A event, teams collectively review any quantitative and qualitative metrics they have agreed to collect, then discuss the data and trends. In preparation for this, the RTE and the Solution Train Engineer are often responsible for gathering the information, analyzing it to identify potential issues, and facilitating the presentation of the findings to the ART.

Each team’s planned vs. actual business value is rolled up to create the ART predictability measure, as shown in Figure 2.

Reliable trains should operate in the 80–100 percent range; this allows the business and its external stakeholders to plan effectively. (Note: Uncommitted objectives are excluded from the planned commitment. However, they are included in the actual business value achievement, as can also be seen in Figure 1.)

Retrospective

The teams then run a brief (30 minutes or less) retrospective to identify a few significant issues they would like to address during the problem-solving workshop . There is no one way to do this; several different Agile retrospective formats can be used [3].

Based on the retrospective and the nature of the problems identified, the facilitator helps the group decide which issues they want to tackle. Each team may work on a problem, or, more typically, new groups are formed from individuals across different teams who wish to work on the same issue. This self-selection helps provide cross-functional and differing views of the problem and brings together those impacted and those best motivated to address the issue.

Key ART stakeholders—including Business Owners, customers, and management—join the retrospective and problem-solving workshop teams. The Business Owners can often unblock the impediments outside the team’s control.

Problem-Solving Workshop

The ART holds a structured, root-cause problem-solving workshop to address systemic problems. Root cause analysis provides a set of problem-solving tools used to identify the actual causes of a problem rather than just fixing the symptoms. The RTE typically facilitates the session in a timebox of two hours or less.

Figure 3 illustrates the steps in the problem-solving workshop.

The following sections describe each step of the process.

Agree on the Problem(s) to Solve

American inventor Charles Kettering is credited with saying that “a problem well stated is a problem half solved.” At this point, the teams have self-selected the problem they want to address. But do they agree on the details of the problem, or is it more likely that they have differing perspectives? To this end, the teams should spend a few minutes clearly stating the problem, highlighting the ‘what,’ ‘where,’ ‘when,’ and ‘impact’ as concisely as possible. Figure 4 illustrates a well-written problem statement.

Perform Root Cause Analysis

Effective problem-solving tools include the fishbone diagram and the ‘5 Whys.’ Also known as an Ishikawa Diagram , a fishbone diagram is a visual tool to explore the causes of specific events or sources of variation in a process. Figure 5 illustrates the fishbone diagram with a summary of the previous problem statement written at the head of the ‘fish.’

For our problem-solving workshop, the main bones often start with the default categories of people, processes, tools, program, and environment. However, these categories should be adapted as appropriate.

Team members then brainstorm causes that they think contribute to solving the problem and group them into these categories. Once a potential cause is identified, its root cause is explored with the 5 Whys technique. By asking ‘why’ five times, the cause of the previous cause is uncovered and added to the diagram. The process stops once a suitable root cause has been identified, and the same process is then applied to the next cause.

Identify the Biggest Root Cause

Pareto Analysis, also known as the 80/20 rule, is used to narrow down the number of actions that produce the most significant overall effect. It uses the principle that 20 percent of the causes are responsible for 80 percent of the problem. It’s beneficial when many possible courses of action compete for attention, which is almost always the case with complex, systemic issues.

Once all the possible causes-of-causes are identified, team members then cumulatively vote on the item they think is the most significant factor contributing to the original problem. They can do this by dot voting. For example, each person gets five votes to choose one or more causes they think are most problematic. The team then summarizes the votes in a Pareto chart, such as the example in Figure 6, which illustrates their collective consensus on the most significant root cause.

Restate the New Problem

The next step is to pick the cause with the most votes and restate it clearly as a problem. Restating it should take only a few minutes, as the teams clearly understand the root cause.

Brainstorm Solutions

At this point, the restated problem will start to imply some potential solutions. The team brainstorms as many possible corrective actions as possible within a fixed timebox (about 15–30 minutes). The rules of brainstorming apply here:

  • Generate as many ideas as possible
  • Do not allow criticism or debate
  • Let the imagination soar
  • Explore and combine ideas

Create Improvement Backlog Items

The team then cumulatively votes on up to three most viable solutions. These potential solutions are written as improvement stories and features, planned in the following PI Planning event. During that event, the RTE helps ensure that the relevant work needed to deliver the identified improvements is planned. This approach closes the loop, thus ensuring that action will be taken and that people and resources are dedicated as necessary to improve the current state.

Following this practice, problem-solving becomes routine and systematic, and team members and ART stakeholders can ensure that the train is solidly on its journey of relentless improvement.

Inspect and Adapt for Solution Trains

The above describes a rigorous approach to problem-solving in the context of a single ART. If the ART is part of a Solution Train, the I&A event will often include key stakeholders from the Solution Train. In larger value streams, however, an additional Solution Train I&A event may be required, following the same format.

Due to the number of people in a Solution Train, attendees at the large solution I&A event cannot include everyone, so stakeholders are selected that are best suited to address the problems. This subset of people consists of the Solution Train’s primary stakeholders and representatives from the various ARTs and Suppliers .

Last update: 22 January 2023

Privacy Overview

Gemini 1.5 has massive improvements, but it's not available for everyone yet

Gemini 1.5 is here, and it'll be coming to the Pro model first. Developers and enterprise users can use it now.

Key Takeaways

  • Gemini 1.5 Pro increases the potential context window from 32K tokens to 1 million, allowing it to process larger amounts of data and answer questions more effectively.
  • The introduction of Mixture of Experts (MoE) in Gemini 1.5 Pro improves computational efficiency during training and offers potential for faster inference times.
  • Gemini 1.5 Pro demonstrates significant improvements in logic, understanding multimodal prompts, and logical reasoning, making it more capable in problem-solving tasks.

Google has been hard at work with Gemini since its rebrand, releasing Gemini Advanced powered by Gemini 1.0 Ultra. However, the underlying Gemini Pro model that powered the base version of Gemini was available in Bard for quite a while, but now Google is upgrading it. Gemini 1.5 is here, and it's coming to the Pro model in the free version soon. There are some pretty big architectural changes that Google say will put it on par in terms of performance with 1.0 Ultra.

Gemini-Rebrand

Google Gemini: What is it, and how does it work?

Gemini 1.5 is a massive step forward, it beats gpt-4 turbo in some key areas.

Gemini 1.5 Pro's increased context window

First and foremost, one of the biggest steps that Gemini 1.5 Pro has taken is that it increases the context window from 32K tokens to 1 million tokens. The context window is essentially how much the LLM can "see" at any given time, which is a huge increase. As well, GPT-4 Turbo only has a 128K context window, and Google says that Gemini 1.5 Pro can go up to 10 million in research contexts.

This expanded context window has implications for how much data it can take in at any given time. For example, Google demonstrated how Gemini 1.5 Pro can take in the Apollo 11 Air-to-Ground voice transcript, which is 402 pages, and answer questions about it with ease.

Gemini 1.5 Pro also has another major improvement dubbed Mixture of Experts (MoE), which we've already seen with Mixtral 8x7B. Mixtral employs a MoE architecture to process incoming tokens, directing them to specialized neural networks within the system based on their relevance. The Mixtral 8x7B model features eight such experts. Notably, it's possible to structure these experts in a hierarchical manner, where an expert itself may be another MoE. Upon receiving a prompt, Mixtral 8x7B utilizes a routing network to determine the most suitable expert for each token. In this setup, each token is evaluated by two experts, and the final response is a blend of their outputs.

The MoE approach offers several benefits, particularly in terms of computational efficiency during the initial training phase, although it can be prone to overfitting during the fine-tuning stage. Overfitting occurs when a model becomes too familiar with its training data, leading to a tendency to reproduce it exactly in its responses.

Mixtral AI logo with 8x7B on a white background

What is Mixtral 8x7B? The open LLM giving GPT-3.5 a run for its money

Another advantage of MoEs is their potential for faster inference times, as they activate only a subset of experts for each query. However, accommodating a model like Mixtral, with its 47 billion parameters, requires substantial RAM. The model's overall parameter count is 47 billion rather than 56 billion because it shares many parameters across all experts and does not simply multiply the 7 billion parameters of each expert by eight.

While the above explains how MoE works for Mixtral, the same architectural improvements of an MoE will be present in Gemini too, undoubtedly with some other changes brought in by Google, too. Google didn't reveal how many parameters are powering Gemini 1.5 Pro, but we expected that a MoE will still make it significantly more efficient to run.

Reasoning and problem solving improvements

Gemini should be better at logic and understanding.

Google demonstrated in its reveal of Gemini 1.5 Pro that it's capable of significantly improved multimodal prompt understanding and logical reasoning. When given a 44-minute silent film, as per the above clip, it can identify plot points and events.

Those improvements aren't just for multi-modal prompts, though. Google says that when given a prompt of over 100,000 lines of code, Gemini can still provide modifications, solutions, and other changes based on prompts given by the user.

Gemini 1.5 Pro will be available soon

It's rolling out to developers first.

The word “Gemini” above five separate threads, each a different color, converge from the left into a three-dimensional central helix before separating back out toward the right into five individual strands once more.

If you're a developer that's been using Google's AI Studio or Vertex AI, a limited preview will be available for you to try Gemini 1.5 Pro out now. Google says that it can outperform Gemini 1.0 Pro in 87% of its benchmarks and "performs at a broadly similar level" when compared to Gemini 1.0 Ultra. Interestingly as well, Google says that the model can learn in-conversation, without needing any fine-tuning. Its context window being so large is a first of its kind, which enables it to do significantly more than was previously possible with an LLM.

When it reaches its wider release, Google says that Gemini 1.5 Pro will be available with a 128K context window. It also says that it plans to introduce "pricing tiers" starting at the standard 128K context window and going up to 1 million tokens. Early testers are advised to expect higher latency with the higher context window limit, but that there is no cost for it during its testing stage.

For now, normal users who want to give it a try will have to wait. Google isn't saying when it will roll out, aside from "soon," which doesn't really say a whole lot. Given that developers are already able to try it out now, it seems likely that it will be available in the coming weeks or months for most people.

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COMMENTS

  1. What is Problem Solving? Steps, Process & Techniques

    1. Define the problem Diagnose the situation so that your focus is on the problem, not just its symptoms. Helpful problem-solving techniques include using flowcharts to identify the expected steps of a process and cause-and-effect diagrams to define and analyze root causes. The sections below help explain key problem-solving steps.

  2. The Problem-Solving Process

    1. Identifying the Problem While it may seem like an obvious step, identifying the problem is not always as simple as it sounds. In some cases, people might mistakenly identify the wrong source of a problem, which will make attempts to solve it inefficient or even useless.

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    In many cases, the first step you take toward solving a problem helps to make the solution apparent. In such a case, having access to multiple first steps to approach a problem...

  4. What is Problem Solving? (Steps, Techniques, Examples)

    The problem-solving process typically includes the following steps: Identify the issue: Recognize the problem that needs to be solved. Analyze the situation: Examine the issue in depth, gather all relevant information, and consider any limitations or constraints that may be present. Generate potential solutions: Brainstorm a list of possible ...

  5. 1.3: What is Problem Solving?

    What is the first step of solving any problem? The first step is to recognize that there is a problem and identify the right cause of the problem. This may sound obvious, but similar problems can arise from different events, and the real issue may not always be apparent. To really solve the problem, it's important to find out what started it all.

  6. What are the 7 Steps to Problem-Solving? & Its Examples

    7 Steps to Problem-Solving. 7 Steps to Problem-Solving is a systematic process that involves analyzing a situation, generating possible solutions, and implementing the best course of action. While different problem-solving models exist, a common approach often involves the following seven steps:

  7. The Problem-Solving Process

    1. Define the Problem Clarify the problem before trying to solve it. A common mistake with problem-solving is to react to what the problem appears to be, rather than what it actually is. Write down a simple statement of the problem, and then underline the key words. Be certain there are no hidden assumptions in the key words you have underlined.

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    Problem-solving involves taking certain steps and using psychological strategies. Learn problem-solving techniques and how to overcome obstacles to solving problems. ... Before problem-solving can occur, it is important to first understand the exact nature of the problem itself. If your understanding of the issue is faulty, your attempts to ...

  9. How to master the seven-step problem-solving process

    When we do problem definition well in classic problem solving, we are demonstrating the kind of empathy, at the very beginning of our problem, that design thinking asks us to approach. When we ideate—and that's very similar to the disaggregation, prioritization, and work-planning steps—we do precisely the same thing, and often we use ...

  10. Definitive Guide to Problem Solving Techniques

    Although problem solving techniques vary procedurally, experts agree that the first step in solving a problem is defining the problem. Without a clear articulation of the problem at stake, it is impossible to analyze all the key factors and actors, generate possible solutions, and then evaluate them to pick the best option.

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    The four basic steps to problem solving are: 1. Define the Problem. It's common to conflate symptoms of a problem with the problem itself. When understanding what the root of the problem is, be sure to ask the right questions. If you're problem solving in a workplace, get team feedback. If you're problem solving in school, ask for the ...

  12. What Is Problem-Solving? Steps, Processes, Exercises to do it Right

    Step 1: Defining The Problem Step 2: Ideating a Solution Step 3: Choosing the Best Strategy & Committing Step 4: Implementing your solution Step 5: Analyzing the Results What is Problem-Solving? We're faced with the reality of having to solve problems every day, both in our private and professional lives.

  13. How To Put Problem-Solving Skills To Work in 6 Steps

    1. Define the problem The first step is to analyze the situation carefully to learn more about the problem. A single situation may solve multiple problems. Identify each problem and determine its cause. Try to anticipate the behavior and response of those affected by the problem.

  14. What Is Problem Solving? Steps, Techniques, and Best ...

    How to Solve Problems: 5 Steps. 1. Precisely Identify Problems. As obvious as it seems, identifying the problem is the first step in the problem-solving process. Pinpointing a problem at the beginning of the process will guide your research, collaboration, and solutions in the right direction. At this stage, your task is to identify the scope ...

  15. Master the 7-Step Problem-Solving Process for Better ...

    The 7-Step Problem-Solving Process involves steps that guide you through the problem-solving process. The first step is to define the problem, followed by disaggregating the problem into smaller, more manageable parts. Next, you prioritize the features and create a work plan to address each. Then, you analyze each piece, synthesize the ...

  16. Problem-Solving Strategies: Definition and 5 Techniques to Try

    In insight problem-solving, the cognitive processes that help you solve a problem happen outside your conscious awareness. 4. Working backward. Working backward is a problem-solving approach often ...

  17. What Is Problem-Solving? How to Use Problem-Solving Skills to Resolve

    The first step to take as part of the problem-solving process involves defining what that problem is. While this may seem like a simple idea to follow, the key is to get to the root of the problem . Only once you're able to identify the root issue you're tackling through a root cause analysis can you be sure you're on the right path.

  18. 5 Step Problem Solving Process

    1. Defining the Problem The first step in the process is often overlooked. To define the problem is to understand what it is that you're solving for. This is also where you outline and write down your purpose—what you want to achieve and why. Making sure you know what the problem is can make it easier to follow up with the remaining steps.

  19. The 5 Steps of Problem Solving

    1. Define the Problem aka What are you trying to solve? In addition to getting clear on what the problem is, defining the problem also establishes a goal for what you want to achieve. Input: something is wrong or something could be improved. Output: a clear definition of the opportunity and a goal for fixing it. 2. Brainstorm Ideas

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    Step 1: Define the Problem What is the problem? How did you discover the problem? When did the problem start and how long has this problem been going on? Is there enough data available to contain the problem and prevent it from getting passed to the next process step? If yes, contain the problem. Step 2: Clarify the Problem

  21. Inspect and Adapt

    Figure 3 illustrates the steps in the problem-solving workshop. Figure 3. Problem-solving workshop format. The following sections describe each step of the process. Agree on the Problem(s) to Solve. American inventor Charles Kettering is credited with saying that "a problem well stated is a problem half solved." At this point, the teams ...

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    Step 1: Define the Problem. Differentiate fact from opinion. Specify underlying causes. Consult each faction involved for information. State the problem specifically. Identify what standard or expectation is violated. Determine in which process the problem lies. Avoid trying to solve the problem without data.

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