step two of the seven step problem solving model

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.

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

Introduction

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

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

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

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

step two of the seven step problem solving model

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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7 Steps To Problem-Solving

The 7 steps to problem-solving is a disciplined and methodical approach to identifying and then addressing the root cause of problems. Instead, a more robust approach involves working through a problem using the hypothesis-driven framework of the scientific method. Each viable hypothesis is tested using a range of specific diagnostics and then recommendations are made.

Table of Contents

Understanding the 7 steps to problem-solving

The core argument of this approach is that the most obvious solutions to a problem are often not the best solutions.

Good problem-solving in business is a skill that must be learned. Businesses that are adept at problem-solving take responsibility for their own decisions and have courage and confidence in their convictions. Ultimately, this removes doubt which can impede the growth of businesses and indeed employees alike.

Moving through the 7 steps to problem-solving

Although many versions of the 7-step approach exist, the McKinsey approach is the most widely used in business settings. Here is how decision makers can move through each of the steps systematically.

Step 1 – Define the problem

First, the scope and extent of the problem must be identified. Actions and behaviors of individuals must be the focus – instead of a focus on the individuals themselves. Whatever the case, the problem must be clearly defined and be universally accepted by all relevant parties.

Step 2 – Disaggregate the problem

In the second step, break down the problem (challenge) into smaller parts using logic trees and develop an early hypothesis. Here, economic and scientific principles can be useful in brainstorming potential solutions. Avoid cognitive biases, such as deciding that a previous solution should be used again because it worked last time.

Step 3 – Prioritize issues

Which constituent parts could be key driving factors of the problem? Prioritize each according to those which have the biggest impact on the problem. Eliminate parts that have negligible impact. This step helps businesses use their resources wisely.

Step 4 – Plan the analyses

Before testing each hypothesis, develop a work and process plan for each. Staff should be assigned to analytical tasks with unique output and completion dates. Hypothesis testing should also be reviewed at regular intervals to measure viability and adjust strategies accordingly.

Step 5 – Conduct the analyses

In step five, gather the critical data required to accept or reject each hypothesis. Data analysis methods will vary according to the nature of the project, but each business must understand the reasons for implementing specific methods. In question-based problem solving, the Five Whys or Fishbone method may be used. More complicated problems may require the use of statistical analysis . In any case, this is often the longest and most complex step of the process.

Step 6 – Synthesise the results

Once the results have been determined, they must be synthesized in such a way that they can be tested for validity and logic. In a business context, assess the implications of the findings for a business moving forward. Does it solve the problem?

Step 7 – Communicate

In the final step, the business must present the solutions in such a way that they link back to the original problem statement. When presenting to clients, this is vital. It shows that the business understands the problem and has a solution supported by facts or hard data. Above all, the data should be woven into a convincing story that ends with recommendations for future action.

Key takeaways

7 steps to problem-solving is a methodical approach to problem-solving based on the scientific method.
Although a somewhat rigorous approach, the strategy can be learned by any business willing to devote the time and resources.
Fundamentally, the 7 steps to problem-solving method involves formulating and then testing hypotheses. Through the process of elimination, a business can narrow its focus to the likely root cause of a problem.

Key Highlights

Definition : The 7 Steps to Problem-Solving is a structured methodology rooted in the scientific method. It emphasizes systematic hypothesis testing and data analysis to identify and address the root cause of problems, avoiding surface-level solutions.
Problem-Solving Skill : Effective problem-solving is a learned skill that fosters responsible decision-making, boosts confidence, and supports business growth .
Define the Problem : Clearly outline the problem’s scope and impact, focusing on actions and behaviors rather than individuals.
Disaggregate the Problem : Break down the problem into smaller parts using logic trees and form early hypotheses. Avoid biases from past solutions.
Prioritize Issues : Identify key driving factors of the problem and prioritize them by impact. Eliminate parts with minimal impact to allocate resources efficiently.
Plan the Analyses : Develop work and process plans for hypothesis testing, assigning staff and setting completion dates. Regularly review and adjust strategies.
Conduct the Analyses : Gather critical data to accept or reject hypotheses. Use methods like Five Whys, Fishbone diagrams, or statistical analysis .
Synthesize the Results : Combine and analyze results to determine their validity and implications for the business . Assess if the problem is solved.
Communicate : Present solutions that link back to the original problem statement, supported by facts. Create a compelling story ending with recommendations.
The 7 Steps to Problem-Solving is based on the scientific method.
It requires a structured approach to formulating and testing hypotheses.
Businesses willing to invest time and resources can learn and apply this method effectively.

Connected Decision-Making Frameworks

Cynefin Framework

SWOT Analysis

Personal SWOT Analysis

Pareto Analysis

Failure Mode And Effects Analysis

Blindspot Analysis

Comparable Company Analysis

Cost-Benefit Analysis

Agile Business Analysis

SOAR Analysis

STEEPLE Analysis

Pestel Analysis

DESTEP Analysis

Paired Comparison Analysis

Related Strategy Concepts: Go-To-Market Strategy , Marketing Strategy , Business Models , Tech Business Models , Jobs-To-Be Done , Design Thinking , Lean Startup Canvas , Value Chain , Value Proposition Canvas , Balanced Scorecard , Business Model Canvas , SWOT Analysis , Growth Hacking , Bundling , Unbundling , Bootstrapping , Venture Capital , Porter’s Five Forces , Porter’s Generic Strategies , Porter’s Five Forces , PESTEL Analysis , SWOT , Porter’s Diamond Model , Ansoff , Technology Adoption Curve , TOWS , SOAR , Balanced

Read Next: Mental Models , Biases , Bounded Rationality , Mandela Effect , Dunning-Kruger Effect , Lindy Effect , Crowding Out Effect , Bandwagon Effect , Decision-Making Matrix .

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Mckinsey approach to problem solving, a guide to the 7-step mckinsey problem solving process.

McKinsey and Company is recognized for its rigorous approach to problem solving. They train their consultants on their seven-step process that anyone can learn.

This resource guides you through that process, largely informed by the McKinsey Staff Paper 66. It also includes a PowerPoint Toolkit with slide templates of each step of the process that you can download and customize for your own use.

In this guide you'll learn:

Overview of the mckinsey approach to problem solving, problem solving process.

Problem Definition & Problem Statement Worksheet

Stakeholder Analysis Worksheet

Hypothesis trees, issue trees, analyses and workplan, synthesize findings, craft recommendations, distinctiveness practices, harness the power of collaboration, sources and additional reading, request the mckinsey approach to problem solving.

Problem solving — finding the optimal solution to a given business opportunity or challenge — is the very heart of how consultants create client impact, and considered the most important skill for success at McKinsey.

The characteristic “McKinsey method” of problem solving is a structured, inductive approach that can be used to solve any problem. Using this standardized process saves us from reinventing the problem-solving wheel, and allows for greater focus on distinctiveness in the solution. Every new McKinsey associate must learn this method on his or her first day with the firm.

There are four fundamental disciplines of the McKinsey method:

1. Problem definition

A thorough understanding and crisp definition of the problem.

2. The problem-solving process

Structuring the problem, prioritizing the issues, planning analyses, conducting analyses, synthesizing findings, and developing recommendations.

3. Distinctiveness practices

Constructing alternative perspectives; identifying relationships; distilling the essence of an issue, analysis, or recommendation; and staying ahead of others in the problem-solving process.

4. Collaboratio n

Actively seeking out client, customer, and supplier perspectives, as well as internal and external expert insight and knowledge.

Once the problem has been defined, the problem-solving process proceeds with a series of steps:

Structure the problem
Prioritize the issues
Plan analyses
Conduct analyses
Synthesize findings
Develop recommendations

Not all problems require strict adherence to the process. Some steps may be truncated, such as when specific knowledge or analogies from other industries make it possible to construct hypotheses and associated workplans earlier than their formal place in the process. Nonetheless, it remains important to be capable of executing every step in the basic process.

When confronted with a new and complex problem, this process establishes a path to defining and disaggregating the problem in a way that will allow the team to move to a solution. The process also ensures nothing is missed and concentrates efforts on the highest-impact areas. Adhering to the process gives the client clear steps to follow, building confidence, credibility, and long-term capability.

Problem Definition & Problem Statement Worksheet

The most important step in your entire project is to first carefully define the problem. The problem definition will serve the guide all of the team’s work, so it is critical to ensure that all key stakeholders agree that it is the right problem to be solving.

Problem Statement Worksheet

This is a helpful tool to use to clearly define the problem. There are often dozens of issues that a team could focus on, and it is often not obvious how to define the problem. In any real-life situation, there are many possible problem statements. Your choice of problem statement will serve to constrain the range of possible solutions.

Use a question . The problem statement should be phrased as a question, such that the answer will be the solution. Make the question SMART: specific, measurable, action-oriented, relevant, and time-bound. Example: “How can XYZ Bank close the $100 million profitability gap in two years?”
Context . What are the internal and external situations and complications facing the client, such as industry trends, relative position within the industry, capability gaps, financial flexibility, and so on?
Success criteria . Understand how the client and the team define success and failure. In addition to any quantitative measures identified in the basic question, identify other important quantitative or qualitative measures of success, including timing of impact, visibility of improvement, client capability building required, necessary mindset shifts, and so on.
Scope and constraints . Scope most commonly covers the markets or segments of interest, whereas constraints govern restrictions on the nature of solutions within those markets or segments.
Stakeholders . Explore who really makes the decisions — who decides, who can help, and who can block.
Key sources of insight . What best-practice expertise, knowledge, and engagement approaches already exist? What knowledge from the client, suppliers, and customers needs to be accessed? Be as specific as possible: who, what, when, how, and why.

The problem definition should not be vague, without clear measures of success. Rather, it should be a SMART definition:

Action-oriented

Example situation – A family on Friday evening

Scenario: A mother, a father, and their two teenage children have all arrived home on a Friday at 6 p.m. The family has not prepared dinner for Friday evening. The daughter has lacrosse practice on Saturday and an essay to write for English class due on Monday. The son has theatre rehearsal on both Saturday and Sunday and will need one parent to drive him to the high school both days, though he can get a ride home with a friend. The family dog, a poodle, must be taken to the groomer on Saturday morning. The mother will need to spend time this weekend working on assignments for her finance class she is taking as part of her Executive MBA. The father plans to go on a 100-mile bike ride, which he can do either Saturday or Sunday. The family has two cars, but one is at the body shop. They are trying to save money to pay for an addition to their house.

What is the problem definition?

A statement of facts does not focus the problem solving:

It is 6 p.m. The family has not made plans for dinner, and they are hungry.

A question guides the team towards a solution:

1. What should the family do for dinner on Friday night?

2. Should the family cook dinner or order delivery?

3. What should the family cook for dinner?

4. What should the family cook for dinner that will not require spending more than $40 on groceries?

5. To cook dinner, what do they need to pick up from the supermarket?

6. How can the family prepare dinner within the next hour using ingredients they already have in the house?

In completing the Problem Statement Worksheet, you are prompted to define the key stakeholders.

As you become involved in the problem-solving process, you should expand the question of key stakeholders to include what the team wants from them and what they want from the team, their values and motivations (helpful and unhelpful), and the communications mechanisms that will be most effective for each of them.

Using the Stakeholder Analysis Worksheet allows you to comprehensively identify:

Stakeholders
What you need from them
Where they are
What they need from you

The two most helpful techniques for rigorously structuring any problem are hypothesis trees and issue trees. Each of these techniques disaggregates the primary question into a cascade of issues or hypotheses that, when addressed, will together answer the primary question.

A hypothesis tree might break down the same question into two or more hypotheses.

Example: Alpha Manufacturing, Inc.

Problem Statement: How can Alpha increase EBITDA by $13M (to $50M) by 2025?

The hypotheses might be:

Alpha can add $125M revenues by expanding to new customers, adding $8M of EBITDA
Alpha can reduce costs to improve EBITDA by $5M

These hypotheses will be further disaggregated into subsidiary hypotheses at the next level of the tree.

The aim at this stage is to structure the problem into discrete, mutually exclusive pieces that are small enough to yield to analysis and that, taken together, are collectively exhaustive.

Articulating the problem as hypotheses, rather than issues, is the preferred approach because it leads to a more focused analysis of the problem. Questions to ask include:

Is it testable – can you prove or disprove it?
It is open to debate? If it cannot be wrong, it is simply a statement of fact and unlikely to produce keen insight.
If you reversed your hypothesis – literally, hypothesized that the exact opposite were true – would you care about the difference it would make to your overall logic?
If you shared your hypothesis with the CEO, would it sound naive or obvious?
Does it point directly to an action or actions that the client might take?

Quickly developing a powerful hypothesis tree enables us to develop solutions more rapidly that will have real impact. This can sometimes seem premature to clients, who might find the “solution” reached too quickly and want to see the analysis behind it.

Take care to explain the approach (most important, that a hypothesis is not an answer) and its benefits (that a good hypothesis is the basis of a proven means of successful problem solving and avoids “boiling the ocean”).

Often, the team has insufficient knowledge to build a complete hypothesis tree at the start of an engagement. In these cases, it is best to begin by structuring the problem using an issue tree.

An issue tree is best set out as a series of open questions in sentence form. For example, “How can the client minimize its tax burden?” is more useful than “Tax.” Open questions – those that begin with what, how, or why– produce deeper insights than closed ones. In some cases, an issue tree can be sharpened by toggling between issue and hypothesis – working forward from an issue to identify the hypothesis, and back from the hypothesis to sharpen the relevant open question.

Once the problem has been structured, the next step is to prioritize the issues or hypotheses on which the team will focus its work. When prioritizing, it is common to use a two-by-two matrix – e.g., a matrix featuring “impact” and “ease of impact” as the two axes.

Applying some of these prioritization criteria will knock out portions of the issue tree altogether. Consider testing the issues against them all, albeit quickly, to help drive the prioritization process.

Once the criteria are defined, prioritizing should be straightforward: Simply map the issues to the framework and focus on those that score highest against the criteria.

As the team conducts analysis and learns more about the problem and the potential solution, make sure to revisit the prioritization matrix so as to remain focused on the highest-priority issues.

The issues might be:

How can Alpha increase revenue?
How can Alpha reduce cost?

Each of these issues is then further broken down into deeper insights to solutions.

If the prioritization has been carried out effectively, the team will have clarified the key issues or hypotheses that must be subjected to analysis. The aim of these analyses is to prove the hypotheses true or false, or to develop useful perspectives on each key issue. Now the task is to design an effective and efficient workplan for conducting the analyses.

Transforming the prioritized problem structure into a workplan involves two main tasks:

Define the blocks of work that need to be undertaken. Articulate as clearly as possible the desired end products and the analysis necessary to produce them, and estimate the resources and time required.
Sequence the work blocks in a way that matches the available resources to the need to deliver against key engagement milestones (e.g., important meetings, progress reviews), as well as to the overall pacing of the engagement (i.e., weekly or twice-weekly meetings, and so on).

A good workplan will detail the following for each issue or hypothesis: analyses, end products, sources, and timing and responsibility. Developing the workplan takes time; doing it well requires working through the definition of each element of the workplan in a rigorous and methodical fashion.

This is the most difficult element of the problem-solving process. After a period of being immersed in the details, it is crucial to step back and distinguish the important from the merely interesting. Distinctive problem solvers seek the essence of the story that will underpin a crisp recommendation for action.

Although synthesis appears, formally speaking, as the penultimate step in the process, it should happen throughout. Ideally, after you have made almost any analytical progress, you should attempt to articulate the “Day 1” or “Week 1” answer. Continue to synthesize as you go along. This will remind the team of the question you are trying to answer, assist prioritization, highlight the logical links of the emerging solution, and ensure that you have a story ready to articulate at all times during the study.

McKinsey’s primary tool for synthesizing is the pyramid principle. Essentially, this principle asserts that every synthesis should explain a single concept, per the “governing thought.” The supporting ideas in the synthesis form a thought hierarchy proceeding in a logical structure from the most detailed facts to the governing thought, ruthlessly excluding the interesting but irrelevant.

While this hierarchy can be laid out as a tree (like with issue and hypothesis trees), the best problem solvers capture it by creating dot-dash storylines — the Pyramid Structure for Grouping Arguments.

Pyramid Structure for Grouping Arguments

Focus on action. Articulate the thoughts at each level of the pyramid as declarative sentences, not as topics. For example, “expansion” is a topic; “We need to expand into the European market” is a declarative sentence.
Use storylines. PowerPoint is poor at highlighting logical connections, therefore is not a good tool for synthesis. A storyline will clarify elements that may be ambiguous in the PowerPoint presentation.
Keep the emerging storyline visible. Many teams find that posting the storyline or story- board on the team-room wall helps keep the thinking focused. It also helps in bringing the client along.
Use the situation-complication-resolution structure. The situation is the reason there is action to be taken. The com- plication is why the situation needs thinking through – typically an industry or client challenge. The resolution is the answer.
Down the pyramid: does each governing thought pose a single question that is answered completely by the group of boxes below it?
Across: is each level within the pyramid MECE?
Up: does each group of boxes, taken together, provide one answer – one “so what?” – that is essentially the governing thought above it?
Test the solution. What would it mean if your hypotheses all came true?

Three Horizons of Engagement Planning

It’s useful to match the workplan to three horizons:

What is expected at the end of the engagement
What is expected at key progress reviews
What is due at daily and/or weekly team meetings

The detail in the workplan will typically be greater for the near term (the next week) than for the long term (the study horizon), especially early in a new engagement when considerable ambiguity about the end state remains.

It is at this point that we address the client’s questions: “What do I do, and how do I do it?” This means not offering actionable recommendations, along with a plan and client commitment for implementation.

The essence of this step is to translate the overall solution into the actions required to deliver sustained impact. A pragmatic action plan should include:

Relevant initiatives, along with a clear sequence, timing, and mapping of activities required
Clear owners for each initiative
Key success factors and the challenges involved in delivering on the initiatives

Crucial questions to ask as you build recommendations for organizational change are:

Does each person who needs to change (from the CEO to the front line) understand what he or she needs to change and why, and is he or she committed to it?
Are key leaders and role models throughout the organization personally committed to behaving differently?
Has the client set in place the necessary formal mechanisms to reinforce the desired change?
Does the client have the skills and confidence to behave in the desired new way?

Great problem solvers identify unique disruptions and discontinuities, novel insights, and step-out opportunities that lead to truly distinctive impact. This is done by applying a number of practices throughout the problem-solving process to help develop these insights.

Expand: Construct multiple perspectives

Identifying alternative ways of looking at the problem expands the range of possibilities, opens you up to innovative ideas, and allows you to formulate more powerful hypotheses. Questions that help here include:

What changes if I think from the perspective of a customer, or a supplier, or a frontline employee, or a competitor?
How have other industries viewed and addressed this same problem?
What would it mean if the client sought to run the company like a low-cost airline or a cosmetics manufacturer?

Link: Identify relationships

Strong problem solvers discern connections and recognize patterns in two different ways:

They seek out the ways in which different problem elements – issues, hypotheses, analyses, work elements, findings, answers, and recommendations – relate to one another.
They use these relationships throughout the basic problem-solving process to identify efficient problem-solving approaches, novel solutions, and more powerful syntheses.

Distill: Find the essence

Cutting through complexity to identify the heart of the problem and its solution is a critical skill.

Identify the critical problem elements. Are there some issues, approaches, or options that can be eliminated completely because they won’t make a significant difference to the solution?
Consider how complex the different elements are and how long it will take to complete them. Wherever possible, quickly advance simpler parts of the problem that can inform more complex or time-consuming elements.

Lead: Stay ahead/step back

Without getting ahead of the client, you cannot be distinctive. Paradoxically, to get ahead – and stay ahead – it is often necessary to step back from the problem to validate or revalidate the approach and the solution.

Spend time thinking one or more steps ahead of the client and team.
Constantly check and challenge the rigor of the underlying data and analysis.
Stress-test the whole emerging recommendation
Challenge the solution against a set of hurdles. Does it satisfy the criteria for success as set out on the Problem Statement Worksheet?

No matter how skilled, knowledgeable, or experienced you are, you will never create the most distinctive solution on your own. The best problem solvers know how to leverage the power of their team, clients, the Firm, and outside parties. Seeking the right expertise at the right time, and leveraging it in the right way, are ultimately how we bring distinctiveness to our work, how we maximize efficiency, and how we learn.

When solving a problem, it is important to ask, “Have I accessed all the sources of insight that are available?” Here are the sources you should consider:

Your core team
The client’s suppliers and customers
Internal experts and knowledge
External sources of knowledge
Communications specialists

The key here is to think open, not closed. Opening up to varied sources of data and perspectives furthers our mission to develop truly innovative and distinctive solutions for our clients.

McKinsey Staff Paper 66 — not published by McKinsey but possibly found through an internet search
The McKinsey Way , 1999, by Ethan M. Rasiel

For consultants

7 Steps to an Effective Problem-Solving Process

September 1, 2016 | Leadership Articles

An effective problem-solving process is one of the key attributes that separate great leaders from average ones.

Being a successful leader doesn’t mean that you don’t have any problems. Rather, it means that you know how to solve problems effectively as they arise. If you never had to deal with any problems, chances are pretty high that your company doesn’t really need you. They could hire an entry-level person to do your job!

Unfortunately, there are many examples of leaders out there who have been promoted to management or leadership positions because they are competent and excel in the technical skills needed to do the work. These people find themselves suddenly needing to “think on their feet” and solve problems that are far more high-level and complicated than they’ve ever really had to deal with before. Are there tools available to these people to help them solve the problem correctly and effectively? Absolutely!

Today, I am going to introduce you to the Seven Steps of Effective Problem Solving that Bullet Proof® Managers are learning about, developing, and implementing in their teams.

Step 1: Identify the Problem

What are things like when they are the way we want them to be?

This question helps you find the standard against which we’re going to measure where we are now. If things were going the way we want them to go, what does that look like? If this person were doing the job we want him or her to do, what would they be doing?

And then ask this important question: How much variation from the norm is tolerable?

Therein lies the problem. From an engineering perspective, you might have very little tolerance. From a behavioral perspective, you might have more tolerance. You might say it’s okay with me when this person doesn’t do it exactly as I say because I’m okay with them taking some liberty with this. Some other issue you may need 100% compliance.

Step 2: Analyze the Problem

At what stage is this problem? This helps you identify the urgency of the problem, and there are generally three stages.

The emergent stage is where the problem is just beginning to happen. It does not cause an immediate threat to the way business operates every day. It is just beginning to happen and you have time on your side to be able to correct it without it causing much damage to the processes it is affecting. The mature stage is where this problem is causing more than just minor damage. Some amount of damage has been done, and you need to jump on it immediately to fix it before it becomes a problem where the consequences may be greater, deeper, and more expensive if we don’t solve this problem fast.

The third stage is the crisis stage, when the problem is so serious it must be corrected immediately. At this stage, real damage has been done to company processes, reputation, finances, etc. that will have potentially long-term effects on your ability to do business.

Step 3: Describe the Problem

You should be able to describe a problem by writing it in the form of a statement and you should do it in 12 words or less, assuming it’s not a complicated, scientific problem. This way, you have clarity exactly what the issue is. Then, perhaps try distributing it to your team to ensure they agree that this is the root of the problem, that it makes sense, and everyone that is working toward a solution is working toward the same goal.

The most important question of all, when describing your problem: Is your premise correct?

Let me give you an example of what I mean. We’ve all heard – or read – the story of the engineer’s take on the old “half empty, half full” question. A speaker holds up the glass of water and asks if the glass is half empty or half full, a discussion within the group ensues, and you generally expect some sort of lesson in optimism, etc. from it. In this version, an engineer is in the room and answers, “I see this glass of water as being twice the size it needs to be.”

You see, sometimes when you are the one in charge of the problem, you tend to set the premise of the problem from your own perspective. But, that premise may not be accurate, or it may just need an alternate perspective from which to see it. If your premise is not correct, or at least incomplete, you are not fully understanding the problem and considering all the best options for a solution.

Step 4: Look for Root Causes

This step involves asking and answering a lot of questions. Ask questions like: What caused this problem? Who is responsible for this problem? When did this problem first emerge? Why did this happen? How did this variance from the standard come to be? Where does it hurt us the most? How do we go about resolving this problem?

Also, ask the most important question: Can we solve this problem for good so it will never occur again? Because an important aspect to leadership is coming up with solutions that people can use for a long-term benefit, rather than having to deal with the same problems over and over and over.

Step 5: Develop Alternate Solutions

Just about any problem you have to deal with has more solutions to it than the one that you think of first. So, it is best to develop a list of alternate solutions that you and your team can assess and decide which one will be the best for the particular problem. I often use the ⅓ + 1 Rule to create consensus around one – or the top two or three solutions – that will be best for everyone involved.

Then rank those solutions based on efficiency, cost, long-term value, what resources you have and that you can commit to the solution of the problem. Then, look at every one of those solutions carefully and decide what you believe to be the best solution to this problem at this time.

Step 6: Implement the Solution

Implementing the solution you decide on can include creating an implementation plan. It could also include planning on what happens next if something goes wrong with the solution if it doesn’t work out the way you thought it would. Implementation means that everyone on your team knows and understands their part in making the solution work, that there are timelines for execution, and also that you have a system in place to track whether or not the solution has corrected the problem.

Step 7: Measure the Results

From your implementation plan in step 6, make sure you track and measure the results so you can answer questions such as: Did it work? Was this a good solution? Did we learn something here in the implementation that we could apply to other potential problems?

These seven simple steps will help you become a more effective, efficient problem solver in your organization. As you practice this process and develop the skills, these steps will become more natural to you until the point that you are using them without noticing!

About Crestcom International, LLC.

Crestcom International, LLC is an international leadership development organization, training more than one million leaders for 25,000 businesses in over 60 countries across the globe. Crestcom achieves this through a blend of live-facilitated multimedia video, interactive exercises, and shared learning experiences. Crestcom implements action plans and coaching accountability sessions to ensure measured development in key leadership competency areas. For more information, please contact your local Crestcom representative found here .

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Seven Step Problem Solving Technique

What's the problem?

Our seven step problem solving technique provides a structured basis to help deliver outcomes and solutions to your problems. (But if you’re in hurry, click here for our “manage in a minute” tip: 7 Problem Solving Steps ).

Ever heard people say (or perhaps said yourself) things like :

“I wished we hadn’t jumped to that solution so quickly.”

“I think we may have solved the wrong problem.”

“It was only at the end that I realised we had acted too quickly with too little information.”

“The solution we went ahead with turned out to be impractical and too expensive.”

A structured process helps ensure you stay on track with what you really need to do, to solve a problem.

The seven step problem solving technique covers:

Finding the right problem to solve
Defining the problem
Analysing the problem
Developing possibilities
Selecting the best solution
Implementing
Evaluating and learning

You’ll find a brief explanation of these points below. Once you’ve read these, you can find more details, in our comprehensive guide to problem solving: What’s the Problem (with a tool for each or our problem solving steps).

1 Find the Right Problems to Solve

Surprised to start with this step? Not many problem solving processes include this step, yet it is absolutely crucial. Think how often we spend time and resources on problems which don’t necessarily demand such attention. Ask yourself “Is it the right problem to solve?”. This is also one of the most important stages in our seven step problem solving technique. Why?

Well too often our approach to problem solving is reactive, we wait for the problems to arise. So firstly in our seven step problem solving process, we advocate taking a proactive approach, go and find problems to solve; important and valuable problems. The real starting point then for any problem solving process is to find the right problem to solve.

How do you go about finding the right problems to solve?

That’s what we set to answer in our problem solving skill article: “Finding the Right problems to Solve”. You will find useful management tips in this activity to start the problem solving process by looking firstly at the possibilities in your current issues and then secondly looking to the future.

2 Define the Problem

It is very tempting to gloss over this step and move to analysis and solutions. However, like the first step, it is one of the secrets of effective problem solving and helps to differentiate our seven step problem solving technique. Combining problems that are valuable to solve, with defining exactly what you are trying to solve, can dramatically improve the effectiveness of the problem solving process. The secret to defining the problem, is really about attitude. Try to see every problem as an opportunity.

This is the crucial attitude which will then help you define the problem in a way which focuses on the potential and opportunity in the situation. Peter Drucker advocates that we should starve problems and start feeding opportunities. Perhaps because we don’t see the right problems to solve or the opportunity in solving them. Essentially Drucker suggests that we should move from a problem focus to an opportunity focus.

Define your problem as an opportunity! Our problem solving activity tool does just that, providing a process to frame your problem as an opportunity and a question checklist to help you define what exactly the problem is, and why it is worth your while solving it. The question checklist also leads you through a structured set of questions to start the analysis of the problem. Which is the next step in the seven step problem solving technique.

3 Analyse the Problem

Analysis is a process of discovery of the facts, finding out what you know about the situation. The problem solving activity question checklist leads you through a set of questions to identify the nature of the problem and to analyse what it is and what it isn’t.

One of the most important aspects of analysing any situation is involving the right people.

In “ the best management tools ever: a good question ” we suggest using Reg Revans approach of asking three questions:

Who knows? – about the situation/opportunity, or who has the information we need to solve it/realise it
Who cares? – that something is done about it
Who can? – do something about the solution

These questions are fundamental management tips. They help us to identify the people who need to come together, in order to take appropriate action to solve an issue or realise an opportunity.

Analysis often requires a detailed examination of the situation. This is an important element in seven step problem solving.

An excellent approach to detailed examination is adopted in our structured problem solving technique which uses four steps to improve processes in your organisation. This management tool firstly helps you define the current situation, then challenges all aspects of that current process. The third and fourth steps are to develop options and then seek an optimal solution. The tool leads us from analysis to the next two stages in our seven step problem solving technique, that is developing options and selecting a solution.

4 Develop Possibilities

The previous steps will have already revealed plenty of possibilities for solving the problem and realising the opportunities. At this stage it is important to give time and space for creative solutions. Placing a high value on the ideas of others is a crucial leadership concept and facilitator skill when generating ideas to solve problems.

We have already suggested that for effective problem solving you need to ensure that you find the right problems to solve and then ask yourself what opportunities are created by solving this problem. But how do you focus on opportunities?

We have developed a tool, the power of positive thinking , which helps you to focus on those opportunities, using 5 questions that create opportunities. A group process is recommended to help get possible solutions from a wide range of people – solutions which can create significant opportunities for the organisation.

A second resource provides a great process to explore new possibilities and potential. In “ the best management tools ever: a good question ” there is a tool which groups questions to help you:

focus collective attention on the situation
connect ideas and deeper insight
create forward momentum and move to action

A rich range of possible solutions opens up the opportunities. When you consider you have plenty of ideas with potential it’s time to make a decision.

5 Select the Best Solution

The next phase in our seven step problem solving technique is to consider the number of solutions found. It’s likely that more than one will be viable so how do you decide which solution to select? There will be constraints restricting what you can do, issues about whether solutions fit within what is currently done, and various stakeholders views to consider. Solutions therefore need to be evaluated. A powerful way to do this has been proposed by Peter Drucker. In our business planning tool, “ business goal setting “, we suggest using Drucker’s three criteria as a filter to select ideas to take forward. To screen your ideas apply the three filter tests:

Operational validity – Can you take action on this idea, or can you only talk about it? Can you really do something right away to bring about the kind of future you desire?
Economic validity – Will the idea produce economic result? What would be the early indicators that it was working?
Personal commitment – Do you really believe in the idea? Do you really want to be that kind of people, do that kind of work, and run that kind of business?

Take you time answering these questions. You may well find that many of the other stages in our business goal setting article can help in the problem solving process. Especially if the problem is of organisational significance and its solution could impact the direction the business or unit takes.

6 Implement

Implementing the seven step problem solving technique moves to a project implementation process. But before putting your decision into effect check that you have:

carefully defined the problem, and the desired outcome
analysed the problem at length
collected every available item of information about it
explored all possible avenues, and generated every conceivable option
chosen the best alternative after considerable deliberation.

To implement first make sure that you follow project management guidelines , particularly to be clear on the outcomes, ask yourself what will be different when you solve the problem and realise the opportunity.

Secondly what are the objectives, these should clearly demonstrate how you will get to the outcomes. Gaining clarity on these, and acceptance from the various stakeholders is crucial to succeeding.

The implementation process can then effectively follow a project management model of:

Do it – carry out activities to implement
Deliver it – test and ensure it has met the outcomes

Make sure that the three “who’s” are with you!

During the seven step problem solving process you should build the commitment of those:

who care – they want to see a solution,
who can – they are able to make it happen
who know – they can help you implement effectively.

7 Evaluate and Learn from the seven step problem solving technique

You will have done some things really well by applying this seven step problem solving technique. It would be all too easy to forget them in rushing to solve the next problem, or to implement the solution. You should evaluate at least two areas:

How you carried out the seven step problem solving process
The effectiveness of the solution you implemented. Did it deliver the outcomes you expected?

You should also ask what you are now able to do, or what you could do next, now that you have improved things by solving the problem. What further opportunities can you now realise that you weren’t able to before?

This seven step problem solving technique ensures you follow a systematic process but it also emphasises two secrets of effective problem solving:

Use your problem solving skills to ask: “is it the right problem to solve?”
Then ensure that any problem solving activity asks the question: “what opportunities are created by this problem?”

The eighth problem solving step

Tool 1: When you don’t know what to do
Tool 2: Defining questions for problem solving
Tool 3: Finding the right problems to solve
Tool 4: Problem solving check-list
Tool 4a: Using the question check-list with your team
Tool 5: Problem analysis in 4 steps
Tool 5a: Using 4 Step problem analysis with your team
Tool 6: Questions that create possibilities
Tool 6a: Using the 5 questions with your team
Tool 6b: Putting creativity to work – 5 alternate questions
Tool 6c: Workshop outline
Tool 7: Evaluating alternatives
Tool 8: Creative thinking techniques A-Z
Tool 9: The 5 Whys technique

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I’m teaching team leaders and team members 7 Step Problem Solving and found your site very enlightening and useful for my classes!!!

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All About the 7-Step Military Problem Solving Process

Written by Everett Bledsoe / Fact checked by Brain Bartell

In addition to power and strength, the military relies on quick and decisive thinking. Members in service must be able to think on their feet and craft solutions in the blink of an eye. Obviously, this is not easy to do. But it is not too far-fetched when you realize that countless lives depend on a single personnel’s decision and course of action.

As such, every recruit coming into the military is taught and trained about the 7-step military problem solving process. This systematic approach is believed to be the best way for military members to address any problems that they encounter.

In short, the 7 steps to solve problems are:

Pinpoint the Problem
Identify the Facts and Assumptions
Craft Alternatives
Analyze the Generated Alternatives
Weigh Between the Generated Alternatives
Make and Carry Out Your Final Decision
Evaluate the Results From Your Decision

To make it easier for you to comprehend and follow along, we have elaborated on each of the above steps in this article. So, continue reading by scrolling down!

Table of Contents

Step 1: Pinpoint the Problem

Step 2: identify the facts and assumptions, step 3: craft alternatives, step 4: analyze the generated alternatives, step 5: weigh between the generated alternatives, step 6: make and carry out your final decision, step 7: evaluate the results from your decision, army problem solving & decision making process, seven step military problem solving process.

The first step is to ID the problem, which means recognizing and identifying what needs fixing. Needless to say, you cannot attempt to seek a solution without first knowing what has to be addressed. By pinpointing your problem, you will have a clear goal or end destination in mind. Only then can you come up with the right steps to take.

To effectively define the problem, ask yourself the 5Ws—who, what, where, and when. In detail:

Who is affected? Who is involved?
What is affected? What is in the overall picture?
When is/did this happen?
Where is/did this happen?

Always be crystal clear about the problem and try to view it in the most objective way as much as possible. Imagine you are the third person looking at It rather than from it. It also helps to organize your answers into a coherent and concise problem statement.

The next step is to ID the facts and assumptions. This entails that you get whatever additional information you can in the time that you have. Try to garner more facts than assumptions by reviewing all the possible factors, internal and external, and use them together with what you have thought out in the step above to determine the cause of the problem. You should also be aware of the nature and scope of the problem from this step.

From here, you take a sub-step: think about what you want the final result to be. This does not have to be complicated but it has to be very clear. For instance, one of your troop members may be lost and uncontactable. Your ultimate goal is to find him/her and return to your base together. Remember, having a wishy-washy end state will only make your problem solving process more difficult.

These first two steps constitute situation assessment, which serves as the basis for you to work towards the remaining steps of the military problem solving process.

Onto the third step, strive to develop as many potential solutions as possible. Here, you will have to exercise your imagining and visualizing skills. Brainstorm and refine any ideas simultaneously. Engage both critical and critical thinking in this step. If possible, take note of what you have come up with. Do not be hesitant and brush off any ideas.

Then, analyze your options. Consider all of your possible courses of action with all the available information that you have compiled in the previous steps. Take into account your experiences, intuitions, and emotions. This does not have to be a purely rational or mathematical procedure. Nevertheless, this does not mean that you are 100% guided by your instincts and emotions. You must have a good balance between the two.

This step naturally lends itself to the next: compare between your generated alternatives. Weigh between their respective pros and cons. In particular, look at their cost and benefit of success. Are there any limiting factors or potential for unintended consequences? Evaluate carefully and ask yourself a lot of questions. You can also consider using a table, T-chart, or matrix to compare visually.

Try to settle for the “best” solution or course of action that is both logical and feels “right”. Apart from picking the best, select two or three more workable solutions as backups. Keep them handy in case you need to refer back to them. During this process, you may merge ideas and mix-match bits and pieces—that’s perfectly fine!

Once you have made your decision, craft your action plans. Know the details—what exactly do you have to do to solve the problem? If it is a long-term problem that you have to address, set milestones and timelines with clear methods of measuring progress and success. On the other hand, if it is a short, instantaneous problem, communicate your plans clearly to anyone else involved. Be aware of the specifics and be brutally honest. Execute your course of action with care. But do not be rigid. If something happens out of the plan, be willing to adjust and adapt.

After your solution implementation, wrap up by assessing the results. Was it what you envisioned? Were there deviations? What did you take away? Answer all of the questions so you can be even more equipped for future endeavors. Think of it as a reflection stage. The 7 steps to problem solving in the military are a continuous process—you will be confronted with challenges over and over, so do not skip this strengthening step. It will further your skills and expertise to handle problems going forward.

seven-step-military-problem-solving-process

Another set of seven steps that you may come across during your service is the army problem solving steps. Needless to say, this is applied to the army problem solving process.

Receiving the Mission
Analyzing the Mission
Developing the Course of Action
Analyzing the Course of Action
Comparing the Course of Action
Getting Approval for the Course of Action
Producing, Disseminating, and Transitioning Orders

This is a part of the MDMP, short for the military decision making process. In each step, there are inputs and outputs. In general, it is more specific than the above set of steps.

These seven steps focus on collaborative planning and performance. Plus, set the stage for interactions between different military agents, including commanders, staff, headquarters, etc.

COA is an abbreviation for a course of action. Thus, these steps are relatively similar to the steps that we have gone through earlier; specifically steps two: mission analysis, three: COA development, four: COA analysis, and five: COA comparison. Like the previous seven steps, these are carried out sequentially but can be revisited when needed.

The main difference is that these 7 steps to problem solving in the army are more explicitly directed to junior personnel. Hence, the mentioning of orders from higher-ranks, the significant role of commanders, and the need to earn approval before execution.

A mnemonic that service members use to remember this process is M.A.D.A.C.A.P. for:

A: Analysis

You might want to remember this for an exam at military school, at NCO, or soldier of the month board.

You can learn more about the MDMP here:

So, there you have it—the 7-step military problem solving process. You should now be aware of two different but equally important sets of steps to problem solving and decision making. If you have any follow-up questions or thoughts, let us know in the comments. We look forward to hearing from you!

I am Everett Bledsoe, taking on the responsibility of content producer for The Soldiers Project. My purpose in this project is to give honest reviews on the gear utilized and tested over time. Of course, you cannot go wrong when checking out our package of information and guide, too, as they come from reliable sources and years of experience.

Application of 7-Step Problem-Solving Methodology for Defect Elimination: A Case Study in an Automotive Industry

Conference paper
First Online: 22 April 2022
Cite this conference paper

A. K. Bewoor 12 ,
Mitali U. Kharul 12 ,
Saloni G. Gosavi 12 &
Tanvi J. Kuray 12

Part of the book series: Lecture Notes in Mechanical Engineering ((LNME))

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Quality of products and processes plays a vital role in the automotive industry. To become more efficient and effective in the global market, approaches for failure diagnosis using standardized methodologies such as 7-Step Problem-Solving Methodology (7SPSM), along with 8D, PDCA, DMAIC, and Six Sigma are adopted. The present paper discusses a successful case of 7SPSM in the automotive industry. The tools used in all seven phases contribute majorly toward an effective and complete understanding of the problem considering all the underlying factors. From the results experienced, it can be concluded that 7SPSM provides an effective methodology not only for solving problems but also for continual improvement by elimination of recurrences of product failure.

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A. K. Bewoor, Mitali U. Kharul, Saloni G. Gosavi & Tanvi J. Kuray

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Bewoor, A.K., Kharul, M.U., Gosavi, S.G., Kuray, T.J. (2022). Application of 7-Step Problem-Solving Methodology for Defect Elimination: A Case Study in an Automotive Industry. In: Kumar, S., Ramkumar, J., Kyratsis, P. (eds) Recent Advances in Manufacturing Modelling and Optimization. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-16-9952-8_60

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Published : 22 April 2022

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Home PowerPoint Templates Diagrams 7 Step Problem Solving Process Diagram for PowerPoint

7 Step Problem Solving Process Diagram for PowerPoint

The 7 Step Problem Solving Process Diagram for PowerPoint is a semi-circular template design. It illustrates an iterative process cycle including chevron arrows. Each of these arrow shapes outlines a sequence of the problem-solving method in seven stages. The stages include problem definition, disaggregation, prioritizing, work plan, analysis, synthesis, and communication. These stages are also known as the 7 steps to bullet-proof problem-solving model. This process flow encapsulates all essential steps required to address an issue up to its resolution.

Finding and implementing a solution to any problem is a crucial skill required in all parts of life. It is considered one of the important job capabilities. The 7 steps process of problem-solving provides a foundation that is applicable for business as well as personal challenges. This process functions effectively with nearly all types of problem-solving tools and techniques.

The 7 Step Problem Solving Process Diagram for PowerPoint presents a semi-circle shape of connected chevron arrows. These arrows define the direction of the process sequence. The problem-solving diagram template can be used in educational/staff training and organizational problem-solving presentations. There are additional seven slides of the PowerPoint diagram template to carry detailed discussions about each stage. The users can customize colors and change the textual content of pre-design templates. The SlideModel diagram templates offer a 5 step version of problem solving process template. The users can choose from these templates based on the complexity of the problem and decision making strategies.

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

7 Steps to Problem-Solving

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

Define the Problem:

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

Gather Information:

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

Generate Possible Solutions:

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

Evaluate Options:

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

Make a Decision:

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

Implement the Solution:

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

Evaluate the Results:

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

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

Problem-Solving Example in Education

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

Background:

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

Steps in Problem-Solving

Identify the problem:.

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

Root Cause Analysis

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

Brainstorm Solutions

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

Evaluate and Prioritize Solutions

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

Implement the Chosen Solution

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

Monitor and Evaluate

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

Adjust as Needed

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

Example Solution

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

Expected Outcomes:

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

Final Words

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

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