what is the last step in the systematic approach to problem solving

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

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 .

Step 1: Define the Problem

The first step in the problem-solving process is to define the problem. This step is crucial because finding a solution is only accessible if the problem is clearly defined. The problem must be specific, measurable, and achievable.

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. Gathering data and information about the issue to assist in the definition process is also essential.

Another critical aspect of defining the problem is identifying the stakeholders. Who is affected by it? 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.

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 contributing factors, and analyzing the relationships between these factors. This step helps identify the most critical factors that must be addressed to solve the problem.

A tree or fishbone diagram is one effective way to disaggregate a problem. 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 situation and their corresponding impact on the issue.

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 their urgency. Problems that require immediate attention should be addressed first.
• Impact: Prioritize issues based on their impact on the organization or stakeholders. Problems with a high impact 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, considering 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 problem-solving. By focusing on the most pressing problems, organizations can allocate resources more effectively and make better decisions.

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. By using a combination of methods, organizations can gain a deeper understanding of the issue and make informed decisions.

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 and combining the analysis results for 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 for 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 and help prioritize the solutions.

During the synthesis phase, it is vital to remain open-minded and consider all potential solutions. Involving all stakeholders in the decision-making process is essential to ensure 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, a presentation explaining the findings is essential. 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 agrees with the recommended solution and addresses 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 for helping 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.

Through disaggregation, individuals can break down complex problems into smaller, more manageable parts. By prioritizing potential solutions, individuals can focus their efforts on the most impactful actions. 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 combines all the information 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 PPT Template

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

The 7-Step Problem-Solving Process is a robust 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, save time and resources, and improve outcomes in personal and professional contexts.

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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.
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3 December, 2018

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Problem-Solving: A Systematic Approach

By   Mike Clayton

One of the joys of Project Management is the constant need for problem-solving.

The novelty and uncertainty of a project environment constantly throw up surprises. So, a Project Manager needs to be adept at solving problems.

In this article, we look at problem-solving and offer you a structured, systematic approach.

Problem-Solving Methodologies

There are a lot of established approaches to structured problem-solving. And there is a good chance that, if you work in a large organization, one of them is in common use. Indeed, some organizations mandate a particular problem-solving methodology.

For example, in automobile manufacturing industries, the 8 Disciplines or 8-D methodology is used widely. And anywhere that Six Sigma is an important part of the toolset, you will probably find the DMAIC method of problem-solving.

Others I like include Simplex and the catchily-named TOSIDPAR. And there are still others that, whilst highly effective, are also assertively protected by copyright, making them hard to discuss in an article like this. I’m thinking of you, Synectics.

Strengths and Weaknesses

All of these methodologies offer great features. And curiously, while each one feels complete, none offers every step you might want. The reason is simple. Each approach is tailored to focus on a part of the problem-solving process. Other parts are either outside their remit or receive less emphasis.

Comparison of Approaches

The consequence is that every structured approach can miss out steps that are important in some contexts. To illustrate, let’s compare the four methodologies I have mentioned.

Resolving the Gaps

At OnlinePMCourses, we use an 8-step problem-solving approach that covers just about all of the steps that these four methodologies offer. But, before we address these, let’s take a look at some practical approaches to applying problem-solving.

Practical Implementation

Some of the best examples of project problem-solving are in two of my favorite movies:

• Apollo 13 ‘Let’s work the problem’ (Gene Kranz played by Ed Harris)
• The Martian ‘In the face of overwhelming odds, I’m left with only one option, I’m gonna have to science the shit out of this.’ (Mark Watney played by Matt Damon)

In the Apollo 13 movie, there’s a scene where one engineer dumps a big pile of stuff onto a table in front of a bunch of his colleagues.

‘The people upstairs handed us this one and we’ve gotta come through. We’ve gotta’ find a way for this {holds up square thing] fit into the hole for this [a round thing] using nothing but that [a pile of random-looking stuff]. Let’s get it organized.’

They all dive in and we hear a hubbub.

Hubbub is about as reasonable a translation of the Japanese onomatopoeic word Waigaya as I can find. The idea behind Honda’s Waigaya approach is that everyone on the team gets to contribute to the conversation. But it isn’t a simple free-for-all. There are rules:

• Everybody is equal and needs to be able to say what they think.
• The team must listen to all ideas, and discuss them until they can either prove them to be valid or reject them.
• Once someone shares an idea, they don’t own it – it belongs to the team, who can do with the idea what it wants.
• At the end of waigaya, the team has a set of decisions and responsibilities for what to do, by whom, and by when.

There is a fabulous article that is well worth reading, at the Strategy & Business site .

In The Martian, the character Mark Watney is stuck with his problem. This makes it immediate, and also easy to see the context clearly. Another idea from Japanese manufacturing harnesses the value of getting out from behind your desk and going to where the problem is. It’s called ‘ going to the gemba’ – literally, ‘going to the place’ .

There is magic, when we get up, move about, and gather where the problem is happening. Going to the gemba and convening a waigaya is a great way to kick-off even the most complex problem-solving. Unless, that is, the gemba is halfway to the moon, or on Mars.

Recommended 8-Step Problem Solving Method

To reconcile the different methodologies for solving problems on projects, I have developed my own approach. It was tempting just to take the 17 steps in the chart above. But I also found that those four still miss some steps I find important to remember.

Would anyone think a 20-step Problem-solving Process Makes Sense?

I doubt it.

So, I decided to wrap some of the steps into 8 main steps. This gives us an 8-step method, which has everything that I have found you will need for problem-solving in a project context.

In the figure below, you can see those 8 steps as the bold boxes, with the subsidiary elements that form parts of those 8 major steps in fainter type.

So, in the rest of this article, I’ll summarize what I mean by each of these steps.

1. Define the Problem

Defining your problem is vital and takes up four of the 9 steps in the 8 Disciplines approach. But, on a project, this is often clearer than a new problem arising out of the blue in a manufacturing context, where 8D is most popular. So, I have folded the four parts into one step.

Understand the Context

Here’s where you need to find out how the problem impacts the whole of your project, and the circumstances in which it has arisen.

Gather Your Team

On a small project, this is likely to be all or most of your project team. For larger projects, this will center around the team delivering the workstream that the problem affects. For systemic problems, you’ll be asking work-stream leaders to supply expert team members to create a cross-cutting team. We sometimes call these ‘Tiger Teams’ – for reasons I can’t tell you, I’m afraid!

To support you in this stage, you may want to take a look at these articles:

• What You Need to Know about Building a Great Project Team
• Effective Teamwork: Do You Know How to Create it?
• Boost Your Project Team Performance with these Hacks
• How I Create Exceptional Project Collaboration
• How to Make Your Next Kick-off Meeting a Huge Success

Define the Problem

It’s often reasonably easy to define your problem in terms of ‘what’s wrong’. But it pays to be a specific as possible. And one thing that will help you with the next main step (setting an objective) is to define it in terms of what you want.

I like the discipline of defining your problem as:

How to…

Safety First

When I first encountered the 8 Disciplines method, the step that blew me away was D3 – Contain the Problem. I’d not thought of that before!

But it’s clear that, in many environments, like manufacturing, engineering, and transportation, solving the problem is not your first priority. You must first ensure that you do everything possible to limit further damage and risk to life and reputation. This may be the case on your project.

2. Set An Objective for Resolving the Problem

With everything safe and the problem not getting worse, you can move forward. This step is about defining what success looks like.

And, taking a leaf out of the TOSIDPAR approach, what standards, criteria, and measurable outcomes will you use to make your objective s precise as possible?

3. Establish the Facts of the Problem

I suppose the first step in solving a problem is getting an understanding of the issues, and gathering facts. This is the research and analysis stage.

And I like the DMAIC method’s approach of separating this into two distinct parts:

• Fact-finding.  This is where we make measurements in DMAIC, and gather information more generally. Be careful with perceptions and subjective accounts. It may be a fact that this is what I think I saw, but it may not be what actually happened.
• Analysis Once you have your evidence, you can start to figure out what it tells you. This can be a straightforward discussion, or may rely on sophisticated analytical methods, depending on circumstances. One analytical approach, which the 8D method favors, is root cause analysis. There are a number of ways to carry this out.

4. Find Options for Resolving the Problem

I see this step as the heart of problem-solving. So, it always surprises me how thin some methodologies are, here. I split it into four considerations.

Identify Your Options

The creative part of the problem-solving process is coming up with options that will either solve the problem or address it in part. The general rules are simple:

Rule 1: The more options you have, the greater chance of success. Rule 2: The more diverse your team, the more and better will be the options they find.

So, create an informal environment, brief your team, and use your favorite idea generation methods to create the longest list of ideas you can find. Then, look for some more!

Identify your Decision Criteria

A good decision requires good input – in this case, good ideas to choose from. It also needs a strong process and the right people. The first step in creating a strong process is to refer back to your objectives for resolving the problem and define the criteria against which you will evaluate your options and make your decision.

Determine your Decision-makers

You also need to determine who is well-placed to make the decision. This will be by virtue of their authority to commit the project and their expertise in assessing the relevant considerations. In most cases, this will be you – maybe with the support of one or more work-stream leaders. For substantial issues that have major financial, schedule, reputational, or strategic implications, this may be your Project Sponsor or Project Board.

Evaluate your Options

There are a number of ways to evaluate your problem resolution options that range from highly structured and objective to simple subjective approaches. Whichever you select, be sure that you apply the criteria you chose earlier, and present the outcomes of your evaluation honestly.

It is good practice to offer a measure of the confidence decision-makers can have in the evaluation, and a scenario assessment, based on each option.

5. Make a Decision on How to Resolve the Problem

We have done two major articles like this one about decision-making. For more on this topic, take a look at:

• The Essential Guide to Robust Project Decision-Making
• Rapid Decision Making in Projects: How to Get it Right

There are two parts to this step, that are equally important.

• The first is to make the decision.
• The second is to document that decision

Documenting your Decision

Good governance demands that you document your decision. But how documentation to provide is a matter of judgment. Doubtless, it will correlate to the scale and implications of that decision.

Things to consider include:

• What were the options?
• Who were the decision-makers?
• What was the evidence they considered?
• How did they make their decision (process)?
• What decision did they make?
• What were the reasons for their choice?

6. Make a Plan for Resolving the Problem

Well, of course, now you need to put together a plan for how you are going to implement your resolution. Unless, of course, the fix is simple enough that you can just ask your team to get on and do it. So, in that case, skip to step 7.

Inform your Stakeholders

But for an extensive change to your project, you will need to plan the fix. And you will also need to communicate the decision and your plan to your stakeholders. Probably, this is nothing more than informing them of what has happened and how you are acting to resolve it. This can be enormously reassuring and the cost of not doing so is often rumours and gossip about how things are going wrong and that you don’t have control of your project.

Sometimes, however, your fix is a big deal. It may involve substantial disruption, delay, or risk, for example. In this case, you may need to persuade some of your stakeholders that it is the right course of action. As always, communication is 80 percent of project management, and stakeholder engagement is critical to the success of your project.

7. Take Action

There’s an old saying: ‘There’s no change without action.’ Indeed.

What more can I say about this step that will give you any value?

Hmmm. Nothing.

8. Review and Evaluate Your Plan

But this step is vital. How you finish something says a lot about your character.

If you consider the problem-solving as a mini-project, this is the close stage. And what you need to do will echo the needs of that stage. I’ll focus on three components.

Review and Evaluate

Clearly, there is always an opportunity to learn from reviewing the problem, the problem-solving, and the implementation, after completion. This is important for your professional development and for that of your team colleagues.

But it is also crucial to keep the effectiveness of your fix under review. So, monitor closely, until you are confident you have completed the next task…

Prevent the Problem from Recurring

Another phrase from the world of Japanese manufacturing: ‘Poka Yoke’ .

This is mistake-proofing. It is about designing something so it can’t fail. What stops you from putting an SD card or a USB stick into your device in the wrong orientation? If you did, the wrong connections of pins would probably either fry the memory device or, worse, damage your device.

The answer is that they are physically designed so they cannot be inserted incorrectly.

What can you do on your project to make a recurrence of this problem impossible? If there is an answer and that answer is cost-effective, then implement it.

Celebrate your Success in Fixing it

Always the last thing you do is celebrate. Now, when Jim Lovell, Jack Swigert, and Fred Haise (the crew of Apollo 13) returned safely to Earth, I’ll bet there was a big celebration. For solving your project problem, something modest is more likely to be in order. But don’t skill this. Even if it’s nothing more than a high five and a coffee break, always ensure that your team knows they have done well.

What Approach Do You Use for Problem-Solving?

How do you tackle solving problems on your projects? Do tell us, or share any thoughts you have, in the comments below. I’ll respond to anything you contribute.

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Mike Clayton

About the author....

Great structure, Mike. We had a problem once that suited the “contain” step quite well. Lubricating oil and hydraulic fluid, from the same supplier, had been packaged incorrectly. A tech went to add oil to an aircraft’s engine, but dropped the can onto the concrete, and noticed red hydraulic fluid spill out! Obviously there’s now the risk that people have been inadvertently adding hydraulic fluid to aircraft engines… not good. It was actually FAR more important to contain this is real time so that aircraft, some of which could be airborne, could be safely grounded/quarantined. Resolving the subsequent ramifications could then be accomplished in “slow time” with some deliberate planning/execution.

Thank you very much. That’s a powerful illustration and hopefully the incudenbt did not cause any loss of life or serious damage.

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• A Step-by-Step Guide to A3 Problem Solving Methodology
• Learn Lean Sigma
• Problem Solving

Problem-solving is an important component of any business or organization. It entails identifying, analyzing, and resolving problems in order to improve processes, drive results, and foster a culture of continuous improvement. A3 Problem solving is one of the most effective problem-solving methodologies.

A3 Problem solving is a structured and systematic approach to problem-solving that originated with the lean manufacturing methodology. It visualizes the problem-solving process using a one-page document known as an A3 report. The A3 report provides an overview of the problem, data analysis, root causes, solutions, and results in a clear and concise manner.

A3 Problem Solving has numerous advantages, including improved communication, better decision-making, increased efficiency, and reduced waste. It is a powerful tool for businesses of all sizes and industries, and it is especially useful for solving complex and multi-faceted problems.

In this blog post, we will walk you through the A3 Problem Solving methodology step by step. Whether you are new to A3 Problem Solving or simply want to improve your skills, this guide will help you understand and apply the process in your workplace.

Table of Contents

What is a3 problem solving.

A3 Problem Solving is a structured and systematic approach to problem-solving that makes use of a one-page document called an A3 report to visually represent the process. The A3 report provides an overview of the problem, data analysis, root causes, solutions, and results in a clear and concise manner. The method was created within the framework of the Lean manufacturing methodology and is based on the principles of continuous improvement and visual management.

Looking for a A3 Problem solving template? Click here

Origin and History of A3 Problem Solving

A3 Problem Solving was developed by Toyota Motor Corporation and was first used in the manufacture of automobiles. The term “A3” refers to the size of the paper used to create the report, which is an ISO standard known as “A3”. The goal of the A3 report is to provide a visual representation of the problem-solving process that all members of the organisation can easily understand and share. A3 Problem Solving has been adopted by organisations in a variety of industries over the years, and it has become a widely used and recognised method for problem-solving.

Key Principles of A3 Problem Solving

The following are the key principles of A3 Problem Solving:

• Define the problem clearly and concisely
• Gather and analyze data to gain a deep understanding of the problem
• Identify the root causes of the problem
• Develop and implement effective solutions
• Evaluate results and continuously improve

These principles serve as the foundation of the A3 Problem Solving methodology and are intended to assist organisations in continuously improving and achieving their objectives. Organizations can effectively solve problems, identify areas for improvement, and drive results by adhering to these principles.

Step 1: Define the Problem

Importance of clearly defining the problem.

The first step in the A3 Problem Solving process is critical because it lays the groundwork for the remaining steps. To define the problem clearly and accurately, you must first understand the problem and identify the underlying root cause. This step is critical because if the problem is not correctly defined, the rest of the process will be based on incorrect information, and the solution developed may not address the issue effectively.

The significance of defining the problem clearly cannot be overstated. It aids in the collection and analysis of relevant data, which is critical for developing effective solutions. When the problem is clearly defined, the data gathered is more relevant and targeted, resulting in a more comprehensive understanding of the issue. This will enable the development of solutions that are more likely to be effective because they are founded on a thorough and accurate understanding of the problem.

However, if the problem is not clearly defined, the data gathered may be irrelevant or incorrect, resulting in incorrect conclusions and ineffective solutions. Furthermore, the process of collecting and analysing data can become time-consuming and inefficient, resulting in resource waste. Furthermore, if the problem is not accurately defined, the solutions developed may fail to address the root cause of the problem, resulting in ongoing issues and a lack of improvement.

Techniques for Defining the Problem

The first step in the A3 Problem Solving process is to clearly and accurately define the problem. This is an important step because a clearly defined problem will help to ensure that the appropriate data is collected and solutions are developed. If the problem is not clearly defined, incorrect data may be collected, solutions that do not address the root cause of the problem, and time and resources may be wasted.

A problem can be defined using a variety of techniques, including brainstorming , root cause analysis , process mapping , and Ishikawa diagrams . Each of these techniques has its own advantages and disadvantages and can be used in a variety of situations depending on the nature of the problem.

Best Practice for Defining the Problem

In addition to brainstorming, root cause analysis, process mapping, and Ishikawa diagram s, best practices should be followed when defining a problem in A3 Problem Solving. Among these best practices are:

• Define the issue in a specific and quantifiable way: It is critical to be specific and concise when defining the problem, as well as to quantify the problem in terms of its impact. This will help to ensure that all stakeholders understand the problem and that data collection is focused on the right areas.
• Focus on the problem’s root cause: The A3 Problem Solving methodology is intended to assist organisations in identifying and addressing the root cause of a problem, rather than just the symptoms. Organizations can ensure that their solutions are effective and long-lasting by focusing on the root cause of the problem.
• Ascertain that all stakeholders agree on the problem’s definition: All stakeholders must agree on the definition of the problem for the A3 Problem Solving process to be effective. This ensures that everyone is working towards the same goal and that the solutions developed are relevant and appropriate.
• Consider the problem’s impact on the organisation and its stakeholders: It is critical to consider the impact of the problem on the organisation and its stakeholders when defining it. This will assist in ensuring that the appropriate data is gathered and that the solutions developed are relevant and appropriate.

Organizations can ensure that their problem is defined in a way that allows for effective data collection, analysis, and solution development by following these best practices. This will aid in the development of appropriate solutions and the effective resolution of the problem, resulting in improvements in the organization’s processes and outcomes.

Step 2: Gather Data

Gathering data in a3 problem solving.

Data collection is an important step in the A3 Problem Solving process because it allows organisations to gain a thorough understanding of the problem they are attempting to solve. This step entails gathering pertinent information about the problem, such as data on its origin, impact, and any related factors. This information is then used to help identify root causes and develop effective solutions.

One of the most important advantages of data collection in A3 Problem Solving is that it allows organisations to identify patterns and trends in data, which can be useful in determining the root cause of the problem. This information can then be used to create effective solutions that address the problem’s root cause rather than just its symptoms.

In A3 Problem Solving, data collection is a collaborative effort involving all stakeholders, including those directly impacted by the problem and those with relevant expertise or experience. Stakeholders can ensure that all relevant information is collected and that the data is accurate and complete by working together.

Overall, data collection is an important step in the A3 Problem Solving process because it serves as the foundation for effective problem-solving. Organizations can gain a deep understanding of the problem they are attempting to solve and develop effective solutions that address its root cause by collecting and analysing relevant data.

Data Collection Methods

In A3 Problem Solving, several data collection methods are available, including:

• Observations
• Process diagrams

The best data collection method will be determined by the problem being solved and the type of data required. To gain a complete understanding of the problem, it is critical to use multiple data collection methods.

Tools for Data Analysis and Visualization

Once the data has been collected, it must be analysed and visualised in order to gain insights into the problem. This process can be aided by the following tools:

• Excel Spreadsheets
• Flow diagrams
• Pareto diagrams
• Scatter Plots
• Control diagrams

These tools can assist in organising data and making it easier to understand. They can also be used to generate visual representations of data, such as graphs and charts, to communicate the findings to others.

Finally, the data collection and analysis step is an important part of the A3 Problem Solving process. Organizations can gain a better understanding of the problem and develop effective solutions by collecting and analysing relevant data.

Step 3: Identify Root Causes

Identifying the root causes of the problem is the third step in the A3 Problem Solving process. This step is critical because it assists organisations in understanding the root causes of a problem rather than just its symptoms. Once the underlying cause of the problem is identified, it can be addressed more effectively, leading to more long-term solutions.

Overview of the Root Cause Analysis Process

The process of determining the underlying causes of a problem is known as root cause analysis. This process can assist organisations in determining why a problem is occurring and what can be done to prevent it from recurring in the future. The goal of root cause analysis is to identify the underlying cause of a problem rather than just its symptoms, allowing it to be addressed more effectively.

To understand Root cause analysis in more detail check out RCA in our Lean Six Sigma Yellow Belt Course Root Cause Analysis section

Techniques for Identifying Root Causes

There are several techniques for determining the root causes of a problem, including:

• Brainstorming
• Ishikawa diagrams (also known as fishbone diagrams)
• Root Cause Tree Analysis

These methods can be used to investigate the issue in-depth and identify potential root causes. Organizations can gain a deeper understanding of the problem and identify the underlying causes that must be addressed by using these techniques.

Best Practices for Conducting Root Cause Analysis

It is critical to follow these best practices when conducting root cause analysis in A3 Problem Solving:

• Make certain that all stakeholders participate in the root cause analysis process.
• Concentrate on determining the root cause of the problem rather than just its symptoms.
• Take into account all potential root causes, not just the most obvious ones.
• To identify root causes, use a systematic approach, such as the 5 Whys or root cause tree analysis.

Organizations can ensure that root cause analysis is carried out effectively and that the root cause of the problem is identified by adhering to these best practises. This will aid in the development of appropriate solutions and the effective resolution of the problem.

Step 4: Develop Solutions

Developing solutions is the fourth step in the A3 Problem Solving process. This entails generating ideas and options for dealing with the problem, followed by selecting the best solution. The goal is to develop a solution that addresses the root cause of the problem and prevents it from recurring.

Solution Development in A3 Problem Solving

A3 solution development Problem solving is an iterative process in which options are generated and evaluated. The data gathered in the previous steps, as well as the insights and understanding gained from the root cause analysis, guide this process. The solution should be based on a thorough understanding of the problem and address the underlying cause.

Techniques for Developing Solutions

There are several techniques that can be used to develop solutions in A3 Problem Solving, including:

• Brainwriting
• Solution matrix
• Multi voting
• Force field analysis

These techniques can help to generate a range of options and to select the best solution.

Best Practice for Developing Solutions

It is critical to follow the following best practices when developing solutions in A3 Problem Solving:

• Participate in the solution development process with all stakeholders.
• Make certain that the solution addresses the underlying cause of the problem.
• Make certain that the solution is feasible and achievable.
• Consider the solution’s impact on the organisation and its stakeholders.

Organizations can ensure that the solutions they develop are effective and sustainable by adhering to these best practises. This will help to ensure that the problem is addressed effectively and that it does not reoccur.

Step 5: Implement Solutions

The final and most important step in the A3 Problem Solving methodology is solution implementation. This is the stage at which the identified and developed solutions are put into action to address the problem. This step’s goal is to ensure that the solutions are effective, efficient, and long-lasting.

The implementation Process

The implementation process entails putting the solutions developed in the previous step into action. This could include changes to processes, procedures, and systems, as well as employee training and education. To ensure that the solutions are effective, the implementation process should be well-planned and meticulously executed.

Techniques for Implementing Solutions

A3 Problem Solving solutions can be implemented using a variety of techniques, including:

• Piloting the solution on a small scale before broadening its application
• Participating in the implementation process with all relevant stakeholders
• ensuring that the solution is in line with the goals and objectives of the organisation
• Monitoring the solution to determine its effectiveness and make any necessary changes

Best Practice for Implementing Solutions

It is critical to follow these best practices when implementing solutions in A3 Problem Solving:

Make certain that all relevant stakeholders are involved and supportive of the solution. Have a clear implementation plan that outlines the steps, timeline, and resources required. Continuously monitor and evaluate the solution to determine its efficacy and make any necessary changes. Encourage all stakeholders to communicate and collaborate openly. Organizations can ensure that solutions are effectively implemented and problems are effectively addressed by adhering to these best practices. The ultimate goal is to find a long-term solution to the problem and improve the organization’s overall performance.

In conclusion, A3 Problem Solving is a comprehensive and structured methodology for problem-solving that can be applied in various industries and organisations. The A3 Problem Solving process’s five steps – Define the Problem, Gather Data, Identify Root Causes, Develop Solutions, and Implement Solutions – provide a road map for effectively addressing problems and making long-term improvements.

Organizations can improve their problem-solving skills and achieve better results by following the key principles, techniques, and best practices outlined in this guide. As a result, both the organisation and its stakeholders will benefit from increased efficiency, effectiveness, and satisfaction. So, whether you’re an experienced problem solver or just getting started, consider incorporating the A3 Problem Solving methodology into your work and start reaping the benefits right away.

Daniel Croft

Daniel Croft is a seasoned continuous improvement manager with a Black Belt in Lean Six Sigma. With over 10 years of real-world application experience across diverse sectors, Daniel has a passion for optimizing processes and fostering a culture of efficiency. He's not just a practitioner but also an avid learner, constantly seeking to expand his knowledge. Outside of his professional life, Daniel has a keen Investing, statistics and knowledge-sharing, which led him to create the website learnleansigma.com, a platform dedicated to Lean Six Sigma and process improvement insights.

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Self-Assessment • 20 min read

How Good Is Your Problem Solving?

Use a systematic approach..

By the Mind Tools Content Team

Good problem solving skills are fundamentally important if you're going to be successful in your career.

But problems are something that we don't particularly like.

They're time-consuming.

They muscle their way into already packed schedules.

They force us to think about an uncertain future.

And they never seem to go away!

That's why, when faced with problems, most of us try to eliminate them as quickly as possible. But have you ever chosen the easiest or most obvious solution – and then realized that you have entirely missed a much better solution? Or have you found yourself fixing just the symptoms of a problem, only for the situation to get much worse?

To be an effective problem-solver, you need to be systematic and logical in your approach. This quiz helps you assess your current approach to problem solving. By improving this, you'll make better overall decisions. And as you increase your confidence with solving problems, you'll be less likely to rush to the first solution – which may not necessarily be the best one.

Once you've completed the quiz, we'll direct you to tools and resources that can help you make the most of your problem-solving skills.

How Good Are You at Solving Problems?

Instructions.

For each statement, click the button in the column that best describes you. Please answer questions as you actually are (rather than how you think you should be), and don't worry if some questions seem to score in the 'wrong direction'. When you are finished, please click the 'Calculate My Total' button at the bottom of the test.

Answering these questions should have helped you recognize the key steps associated with effective problem solving.

This quiz is based on Dr Min Basadur's Simplexity Thinking problem-solving model. This eight-step process follows the circular pattern shown below, within which current problems are solved and new problems are identified on an ongoing basis. This assessment has not been validated and is intended for illustrative purposes only.

Below, we outline the tools and strategies you can use for each stage of the problem-solving process. Enjoy exploring these stages!

Step 1: Find the Problem (Questions 7, 12)

Some problems are very obvious, however others are not so easily identified. As part of an effective problem-solving process, you need to look actively for problems – even when things seem to be running fine. Proactive problem solving helps you avoid emergencies and allows you to be calm and in control when issues arise.

These techniques can help you do this:

PEST Analysis helps you pick up changes to your environment that you should be paying attention to. Make sure too that you're watching changes in customer needs and market dynamics, and that you're monitoring trends that are relevant to your industry.

Risk Analysis helps you identify significant business risks.

Failure Modes and Effects Analysis helps you identify possible points of failure in your business process, so that you can fix these before problems arise.

After Action Reviews help you scan recent performance to identify things that can be done better in the future.

Where you have several problems to solve, our articles on Prioritization and Pareto Analysis help you think about which ones you should focus on first.

Step 2: Find the Facts (Questions 10, 14)

After identifying a potential problem, you need information. What factors contribute to the problem? Who is involved with it? What solutions have been tried before? What do others think about the problem?

If you move forward to find a solution too quickly, you risk relying on imperfect information that's based on assumptions and limited perspectives, so make sure that you research the problem thoroughly.

Step 3: Define the Problem (Questions 3, 9)

Now that you understand the problem, define it clearly and completely. Writing a clear problem definition forces you to establish specific boundaries for the problem. This keeps the scope from growing too large, and it helps you stay focused on the main issues.

A great tool to use at this stage is CATWOE . With this process, you analyze potential problems by looking at them from six perspectives, those of its Customers; Actors (people within the organization); the Transformation, or business process; the World-view, or top-down view of what's going on; the Owner; and the wider organizational Environment. By looking at a situation from these perspectives, you can open your mind and come to a much sharper and more comprehensive definition of the problem.

Cause and Effect Analysis is another good tool to use here, as it helps you think about the many different factors that can contribute to a problem. This helps you separate the symptoms of a problem from its fundamental causes.

Step 4: Find Ideas (Questions 4, 13)

With a clear problem definition, start generating ideas for a solution. The key here is to be flexible in the way you approach a problem. You want to be able to see it from as many perspectives as possible. Looking for patterns or common elements in different parts of the problem can sometimes help. You can also use metaphors and analogies to help analyze the problem, discover similarities to other issues, and think of solutions based on those similarities.

Traditional brainstorming and reverse brainstorming are very useful here. By taking the time to generate a range of creative solutions to the problem, you'll significantly increase the likelihood that you'll find the best possible solution, not just a semi-adequate one. Where appropriate, involve people with different viewpoints to expand the volume of ideas generated.

Tip: Don't evaluate your ideas until step 5. If you do, this will limit your creativity at too early a stage.

Step 5: Select and Evaluate (Questions 6, 15)

After finding ideas, you'll have many options that must be evaluated. It's tempting at this stage to charge in and start discarding ideas immediately. However, if you do this without first determining the criteria for a good solution, you risk rejecting an alternative that has real potential.

Decide what elements are needed for a realistic and practical solution, and think about the criteria you'll use to choose between potential solutions.

Paired Comparison Analysis , Decision Matrix Analysis and Risk Analysis are useful techniques here, as are many of the specialist resources available within our Decision-Making section . Enjoy exploring these!

Step 6: Plan (Questions 1, 16)

You might think that choosing a solution is the end of a problem-solving process. In fact, it's simply the start of the next phase in problem solving: implementation. This involves lots of planning and preparation. If you haven't already developed a full Risk Analysis in the evaluation phase, do so now. It's important to know what to be prepared for as you begin to roll out your proposed solution.

The type of planning that you need to do depends on the size of the implementation project that you need to set up. For small projects, all you'll often need are Action Plans that outline who will do what, when, and how. Larger projects need more sophisticated approaches – you'll find out more about these in the article What is Project Management? And for projects that affect many other people, you'll need to think about Change Management as well.

Here, it can be useful to conduct an Impact Analysis to help you identify potential resistance as well as alert you to problems you may not have anticipated. Force Field Analysis will also help you uncover the various pressures for and against your proposed solution. Once you've done the detailed planning, it can also be useful at this stage to make a final Go/No-Go Decision , making sure that it's actually worth going ahead with the selected option.

Step 7: Sell the Idea (Questions 5, 8)

As part of the planning process, you must convince other stakeholders that your solution is the best one. You'll likely meet with resistance, so before you try to “sell” your idea, make sure you've considered all the consequences.

As you begin communicating your plan, listen to what people say, and make changes as necessary. The better the overall solution meets everyone's needs, the greater its positive impact will be! For more tips on selling your idea, read our article on Creating a Value Proposition and use our Sell Your Idea Skillbook.

Step 8: Act (Questions 2, 11)

Finally, once you've convinced your key stakeholders that your proposed solution is worth running with, you can move on to the implementation stage. This is the exciting and rewarding part of problem solving, which makes the whole process seem worthwhile.

This action stage is an end, but it's also a beginning: once you've completed your implementation, it's time to move into the next cycle of problem solving by returning to the scanning stage. By doing this, you'll continue improving your organization as you move into the future.

Problem solving is an exceptionally important workplace skill.

Being a competent and confident problem solver will create many opportunities for you. By using a well-developed model like Simplexity Thinking for solving problems, you can approach the process systematically, and be comfortable that the decisions you make are solid.

Given the unpredictable nature of problems, it's very reassuring to know that, by following a structured plan, you've done everything you can to resolve the problem to the best of your ability.

This assessment has not been validated and is intended for illustrative purposes only. It is just one of many Mind Tool quizzes that can help you to evaluate your abilities in a wide range of important career skills.

If you want to reproduce this quiz, you can purchase downloadable copies in our Store .

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The Systematic Problem-Solving (SPS) Method:

Make better decisions tom g. stevens phd.

Solving problems is important in every area of human thinking. Learning general problem-solving skills can therefore help you improve your ability to cope with every area of your life. All disciplines of philosophy, business, science, and humanities have developed their own approach to solving problems. Remarkably, the problem-solving models developed by each of these areas are strikingly similar. I describe a simple problem-solving process that you can use to solve almost all problems.

Stages of the problem-solving process. The famous psychologist, Dr. Carl Rogers, was one of the first to help us understand how important self-exploration and problem-solving are for overcoming all types of personal, psychological, and daily-living problems. (1);

Consciously going through each of these four stages when solving any complex problem can be very useful. Following are the five stages of the problem-solving method.

STAGE 1: EXPLORATION OF THE PROBLEM

STAGE 2: EXPLORING ALTERNATIVE SOLUTIONS (Routes to Happiness);

STAGE 3: CHOOSING THE BEST ALTERNATIVE

STAGE 4: PLANNING AND ACTION

STAGE 5: EXPERIMENTING AND GATHERING FEEDBACK

During this stage, we gather all of the information we can about both external aspects of the problem and internal aspects. Good information gathering is not an easy process. Scientists spend their whole lives trying to learn about some very small piece of the world. The type of information-gathering process we use will depend upon the type of problem we are trying to solve. For information about the world the following are powerful skills to use.

•  Library reference skills
•  Observational skills
•  Informational interviewing skills
•  Critical thinking skills
•  Scientific method skills
•  Data analysis and statistical skills

Learning how to become an expert at identifying problems and finding causes is essential to become an expert in any field. The above skills are useful in solving many types of problems--even intra-personal ones. However, the focus of this book is how to be happy; and the key to happiness almost always involves not just external causes but internal ones as well.

It is usually much easier for most of us to observe an external event than an internal one. We have our external sensory organs to see and hear external events, but not internal ones. How do we observe that which we cannot see? We can learn to be better observers of our emotions, self-talk, and images.

The self-exploration process described above provides enough information to make you an expert at self-exploration. That is one of the most essential parts of developing your own inner therapist.

STAGE 2: EXPLORING ALTERNATIVE SOLUTIONS OR ROUTES TO HAPPINESS

Gather all the best information you can about possible solutions. Use brainstorming techniques, observe and consult with people who have overcome similar problems, read relevant material, consult experts, and recall your own relevant past experience. Look at both internal and external solutions.

Once you learn so many different routes to happiness, then you will be truly free to choose to be happy in almost any situation you face in life. The actual choice is made in stage 3 of the /problem-solving process. The appendix contains a very useful decision-making model for helping you make complex choices such as choosing a career or relationship. The following is a simple approach to making a decision between alternatives. (See Carkhuff Decision-Making Model, below, for a method for making complex decisions--for career or life planning.);

(1); List all the alternatives you are considering

(2); List all of the values or criteria that will be affected by the decision

(3); Evaluate each alternative by each criteria or value

(4); Choose the alternative which you predict will satisfy the criteria the best and lead to your greatest overall happiness

STAGE 4:  PLANNING AND ACTION (Experimenting);

Many decisions are made, but never implemented. See that you follow-up with good planning. Once you have made your choice, you can use some of the planning methods suggested in the O-PATSM method from chapter 11 to make sure that you follow through with your decision.

This is the stage of acting on your decision. Many people fear making mistakes and failure as if these were some terrible sins that they should never commit. That view of life of life makes every decision and action seem very serious and they often become very timid people who lack creativity and are plagued by guilt and fear of failure. Instead we can view every action as an experiment. If one of our overall goals in life is learning and growth, then we can never fail to learn. All people who have accomplished great happiness for themselves and contributed to others have shared the courage to act on their beliefs.

STAGE 5: GATHERING FEEDBACK

Many people hate to be evaluated and dread finding out the results of what they have done out of fear that the feedback will be negative. These fears can be serious impediments to the growth that can only happen through getting open, accurate feedback.

However, once learning and growth are important goals, then getting feedback becomes highly desirable. How else can we learn? Even negative outcomes can provide valuable information. Of course, almost everyone would rather have outcomes that maximize happiness; but when we don't, we can at least try to maximize our learning. Learning can help maximize happiness in the future.

We can also make the mistakes of dwelling on past mistakes that goes beyond constructive learning and reasonable reparations to victims and of punishing ourselves unnecessarily. Normally, there is no value to punishment--once a lesson has been learned. (2); Keep clear at all times that this problem-solving process is only a tool to serve the overall life goals of increased health, growth, and happiness.

CARKHUFF DECISION-MAKING MODEL:   This particular decision-making model is based upon one by Dr. Robert Carkhuff and follows the general guidelines of a considerable amount of research on how people can make more effective decisions. It can also be used for any other type of decision--from buying a new car to choosing a mate.

EXAMPLE OF USING THE DECISION-MAKING MODEL

The decision-making model will be illustrated in a way which you can use aa an analogy for making your own career decision. In this example, Henry is trying to decide whether to major in psychology or in computer science. Thus he has narrowed his alternatives to the following two:

1); majoring in psychology with a career goal of either going into high school counseling or teaching or 2); majoring in computer science with a possible goal of working as a computer programmer.

These are represented along the top axis of the following matrix.

  ** is the WINNER-it has the most points of the two alternatives

STEPS TO USING THE DECISION-MAKING MODEL--(use above example);

STEP 1-- LIST YOUR CAREER ALTERNATIVES. This is your refined list of alternatives of which majors or occupations you are trying to decide between. Remember, that you can list as many as you want. You can list unusual combinations of simpler alternatives. For Henry those narrowed alternatives were psychology and computer science.

STEP 2--CAREER SELECTION CRITERIA. Review your Career Selection Criteria list and write all the important career selection criteria in the far left column. Note that repeating the same idea or leaving out an important idea can affect the decision outcome.

STEP 3-- CRITERIA WEIGHTS. Evaluate the relative importance to you of each of your Career Selection Criteria on a scale of 1 to 10 (10 being the most important);. Write your answer in the column next to the selection criteria.

STEP 4--ALTERNATIVE EVALUATION SCALE. Each alternative is to be evaluated from the point of view of each selection criterion. You need to think about what this means for each selection criterion. For example Henry determined that for the selection criteria of income , a "minimally acceptable" income would be $25,000 starting with prospects of making up to $50,000 eventually. An outstanding salary would be starting at about $40, 000 with prospects of making up to $100,000.

+5 = Maximum evaluation--outstanding (example: income begin $40,000 go to $100,000 +4, +3, +2, +1 = intermediate values

0 = Minimally acceptable value. (example: income = begin $20,000 go to $45,000);

-1, -2, -3, -4 = intermediate values

-5 = Minimum evaluation--worst possible (example: income < $10,000

STEP 5--EVALUATE EACH ALTERNATIVE BY EACH SELECTION CRITERION. Use the evaluation scale from step 3 to evaluate each alternative from the point of view of each Career Selection Criterion. Give it rating from -5 to +5. In the example above, both alternatives were evaluated on the criterion of "income": Henry gave the psychology income an evaluation of "+2" and computer science income an evaluation of " +4."

STEP 6--MULTIPLY THE CRITERIA WEIGHTS TIMES THE EVALUATIONS. In the example above for the selection criterion of "income," Henry multiplied the criterion weight of "9" times the evaluation of " +2" for "PSYCH" to get a result of "18." That is its SCORE OR POINTS for psychology on the criterion of income. Put it inside of the parentheses. This score of 18 is an overall prediction much Henry's income in psychology will contribute to his overall happiness. Since he had a score of 36 in computer science, he his predicting that he will be much happier with his income in that field.

STEP 7--FIND THE OVERALL SUM OF THE SCORES FOR EACH ALTERNATIVE. Add together the numbers inside the parentheses for each alternative. In the example above, the overall sum for the "PSYCH" alternative is "405."

STEP 8--COMPARE THE ALTERNATIVES WITH EACH OTHER AND WITH THE "IDEAL." The "ideal" is the maximum possible number of points. Once you have determined all the totals and compared them to each other, try to figure out why one alternative came out ahead of another--where it got its points. Play with the points until you think the points match your true feelings and values.

* The alternative with the most points is the one you are predicting will make you the happiest person.

1. 1 Some might argue that Freud was the first. He clearly did describe many helpful techniques. I think that some of his free association techniques are still very useful for helping to find underlying beliefs, images, or cognitive systems which are related to the problem. However, Rogers was the one that more clearly described the stages of self-exploration and problem-solving and the conditions of unconditional positive regard, empathetic understanding, and genuineness on the part of the therapist which seem to be important to the therapeutic process or to any person attempting to feel better.

Robert Carkhuff (one of Roger's pupils); has developed a structured training system for helping people learn these skills. Robert Cash, a personal friend, has further elaborated these skills in his own courses and introduced me to this process. There is a good deal of research supporting the effectiveness of these techniques.

2. 2 This statement does not address the use of punishment as a deterrent to prevent some persons from profiting from their dysfunctional behaviors. For example if behaviors such as murder, robbery, or selling drugs are not given sufficient punishment, some people will engage in these behaviors. A person whose ultimate concern is money and pleasure may deal drugs to make money with little regard to how it affects others. Increasing the cost for a person with those beliefs can reduce the chances they will sell drugs.

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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."

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

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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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Dunbar K. Problem solving . A Companion to Cognitive Science . 2017. doi:10.1002/9781405164535.ch20

Stewart SL, Celebre A, Hirdes JP, Poss JW. Risk of suicide and self-harm in kids: The development of an algorithm to identify high-risk individuals within the children's mental health system . Child Psychiat Human Develop . 2020;51:913-924. doi:10.1007/s10578-020-00968-9

Rosenbusch H, Soldner F, Evans AM, Zeelenberg M. Supervised machine learning methods in psychology: A practical introduction with annotated R code . Soc Personal Psychol Compass . 2021;15(2):e12579. doi:10.1111/spc3.12579

Mishra S. Decision-making under risk: Integrating perspectives from biology, economics, and psychology . Personal Soc Psychol Rev . 2014;18(3):280-307. doi:10.1177/1088868314530517

Csikszentmihalyi M, Sawyer K. Creative insight: The social dimension of a solitary moment . In: The Systems Model of Creativity . 2015:73-98. doi:10.1007/978-94-017-9085-7_7

Chrysikou EG, Motyka K, Nigro C, Yang SI, Thompson-Schill SL. Functional fixedness in creative thinking tasks depends on stimulus modality .  Psychol Aesthet Creat Arts . 2016;10(4):425‐435. doi:10.1037/aca0000050

Huang F, Tang S, Hu Z. Unconditional perseveration of the short-term mental set in chunk decomposition .  Front Psychol . 2018;9:2568. doi:10.3389/fpsyg.2018.02568

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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."

Adopting the right problem-solving approach

May 4, 2023 You’ve defined your problem, ensured stakeholders are aligned, and are ready to bring the right problem-solving approach and focus to the situation to find an optimal solution. But what is the right problem-solving approach? And what if there is no single ideal course of action? In our 2013 classic  from the Quarterly , senior partner Olivier Leclerc  highlights the value of taking a number of different approaches simultaneously to solve difficult problems. Read on to discover the five flexons, or problem-solving languages, that can be applied to the same problem to generate richer insights and more innovative solutions. Then check out more insights on problem-solving approaches, and dive into examples of pressing challenges organizations are contending with now.

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What is the problem-solving process?

Reading time: about 6 min

Much of your day is spent subconsciously and consciously solving problems. It’s second nature to you. So much so that, when problems arise at work, you likely have your own methods of tackling them. But there will come a time when you encounter a problem and realize your methods for solving it don’t match the methods other people are using. Suddenly, your team or your business is facing a large challenge, and team members are pinballing in dozens of directions attempting to solve it, creating more chaos and prolonging the solution. 

This is what happens without having a problem-solving process. A cohesive problem-solving process needs to be defined and must include identifying the problem, gathering potential solutions, deciding on one of them, and implementing that solution. Without agreeing on a specific problem-solving process, your company will struggle to choose a solution, lack innovative solutions from which to choose, and ultimately create more problems than it solves. 

But a company that has standardized its problem-solving is able to be lean, rise to pivots in the market, and improve business value over time. We’ll teach you the components of problem-solving and give you techniques to implement a process in your own business.

6-step problem-solving process 

While your preferred method for solving problems may involve more or fewer steps, these six components comprise the backbone of any good process. 

1. Identify and define the problem 

This step seems like the most basic but can actually be the most surprising part of the process. Without agreeing on what the problem is, there’s no way to actually fix it. And sometimes, it may appear that you have one issue when the root of the problem is something else entirely.

• Write down the problem. It’s not enough to just state it aloud.
• Get granular. List everything known about the issue, from when it began to how broad it is.
• List the problem’s cascading effect to understand how broad of an issue you face.

2. Generate possible solutions

Get brainstorming. Start talking. Think big.

• Narrow down your solutions to the best few.

3. Evaluate alternatives

Before settling on the solution, make sure that you’ve examined all angles.

• Widen the response base. Consider soliciting solutions from beyond your own team to gather a different perspective.
• Carefully weigh the options against each other. What are the risks of each? What are the benefits? Is there a clear winner?

4. Decide on a solution

• Prepare to back up your choice with metrics. Data goes a long way in getting stakeholders on board.
• Detail what you expect the solution to achieve. Why are you taking this approach, and what will the perfect implementation look like?
• Determine what success will look like with this solution. How will you measure it?

Consider using a decision-making matrix template (like the one below) to help with this step. 

5. Implement the solution

This can often be the most difficult step. Implementing a solution involves change management and getting people on board with your solution. 

• Consider communications. How will you get the message out broadly about this solution, how you chose it, and why it’s important? Being completely transparent about the process can help convince your broader team you’ve put considerable thought into all aspects of the solution, which increases trust. 
• Figure out training around the solution, as well as any technical requirements. Will the solution need new software? Will it require a change in process? Outline all this in a single source of truth document that can be referred to often.

6. Evaluate the outcome 

There’s a good chance your solution won’t go perfectly. And you may need to reevaluate it in the future. Periodically evaluating your solution is a valuable tool for improving over time and learning from past mistakes.

Tips for effective problem-solving

As you move through the problem-solving process, you may feel tempted to figure things out as you go, but that can end up wasting valuable time. Consider these tips before you begin so you can avoid missing the best solution.

Don’t jump to conclusions

It’s likely you’ll start the problem-solving process with a clear favorite solution in mind. You may even subconsciously start trying to convince others on your team of the correctness of your solution instead of allowing them space to develop their own solutions. That’s when sticking to the process works the best—it eliminates bias and encourages free thinking. 

Get the right people in the room

This means doing some work ahead of time. Who has the right expertise, as well as the right authority to contribute solutions? Who’s particularly familiar with the problem? Gathering solution-minded people who have the correct understanding of the issue at hand will go far in problem-solving. 

Design a thoughtful agenda

Ever been in a meeting that’s been a waste of time? That could have been because there wasn’t an effective agenda . The agenda should walk the team through the entire process and should be divided into time segments to keep things moving.

Techniques for developing solutions 

In addition to all the above, here are three more problem-solving techniques beyond brainstorming.

Improved solutions

This technique involves improving upon the solutions of others. After presenting the problem, allow each team member to come up with one solid solution and write it down. Then rotate clockwise and encourage the next team member to improve upon the solution that was presented. Continue rotating until all solutions have been improved upon.

A brainwriting template can help with this. 

How-now-wow matrix

Infuse creativity into your process with this technique. The how-now-wow matrix progresses through obvious ideas that are easy to implement through original ideas that may need more effort to implement. This matrix frees up the mind and encourages creative thinking. 

Impact and effort matrix

An impact and effort matrix shows where solutions fall on a scale of their impact vs. how easy they are to complete. This makes it easy for the team to see where there are some quick wins and where there are some high-impact solutions worth putting resources into. 

Problem-solving isn’t going anywhere. The more comfortable you are with tackling problems, the more you’ll train your brain to think of creative solutions, but it all starts with understanding the process. Now that you’ve become more familiar with the problem-solving process, you can better lead your team through the steps, taking a systematic approach to finding solutions. The more you repeat this process, the easier it will be to develop solutions that make a real impact.

Try out this decision-making matrix template for the next problem you need to solve!   

About Lucidspark

Lucidspark, a cloud-based virtual whiteboard, is a core component of Lucid Software's Visual Collaboration Suite. This cutting-edge digital canvas brings teams together to brainstorm, collaborate, and consolidate collective thinking into actionable next steps—all in real time. Lucid is proud to serve top businesses around the world, including customers such as Google, GE, and NBC Universal, and 99% of the Fortune 500. Lucid partners with industry leaders, including Google, Atlassian, and Microsoft. Since its founding, Lucid has received numerous awards for its products, business, and workplace culture. For more information, visit lucidspark.com.

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