the final step in the problem solving process is quizlet

Guide: Problem Solving

Author: Daniel Croft

Daniel Croft is an experienced continuous improvement manager with a Lean Six Sigma Black Belt and a Bachelor's degree in Business Management. With more than ten years of experience applying his skills across various industries, Daniel specializes in optimizing processes and improving efficiency. His approach combines practical experience with a deep understanding of business fundamentals to drive meaningful change.

Problem-solving stands as a fundamental skill, crucial in navigating the complexities of both everyday life and professional environments. Far from merely providing quick fixes, it entails a comprehensive process involving the identification, analysis, and resolution of issues.

This multifaceted approach requires an understanding of the problem’s nature, the exploration of its various components, and the development of effective solutions. At its core, problem-solving serves as a bridge from the current situation to a desired outcome, requiring not only the recognition of an existing gap but also the precise definition and thorough analysis of the problem to find viable solutions.

What is Problem Solving?

At its core, problem-solving is about bridging the gap between the current situation and the desired outcome. It starts with recognizing that a discrepancy exists, which requires intervention to correct or improve. The ability to identify a problem is the first step, but it’s equally crucial to define it accurately. A well-defined problem is half-solved, as the saying goes.

Analyzing the problem is the next critical step. This analysis involves breaking down the problem into smaller parts to understand its intricacies. It requires looking at the problem from various angles and considering all relevant factors – be they environmental, social, technical, or economic. This comprehensive analysis aids in developing a deeper understanding of the problem’s root causes, rather than just its symptoms.

Finally, effective problem-solving involves the implementation of the chosen solution and its subsequent evaluation. This stage tests the practicality of the solution and its effectiveness in the real world. It’s a critical phase where theoretical solutions meet practical application.

The Nature of Problems

The nature of the problem significantly influences the approach to solving it. Problems vary greatly in their complexity and structure, and understanding this is crucial for effective problem-solving.

Simple vs. Complex Problems : Simple problems are straightforward, often with clear solutions. They usually have a limited number of variables and predictable outcomes. On the other hand, complex problems are multi-faceted. They involve multiple variables, stakeholders, and potential outcomes, often requiring a more sophisticated analysis and a multi-pronged approach to solving.

Structured vs. Unstructured Problems : Structured problems are well-defined. They follow a specific pattern or set of rules, making their outcomes more predictable. These problems often have established methodologies for solving. For example, mathematical problems usually fall into this category. Unstructured problems, in contrast, are more ambiguous. They lack a clear pattern or set of rules, making their outcomes uncertain. These problems require a more exploratory approach, often involving trial and error, to identify potential solutions.

Understanding the type of problem at hand is essential, as it dictates the approach. For instance, a simple problem might require a straightforward solution, while a complex problem might need a more comprehensive, step-by-step approach. Similarly, structured problems might benefit from established methodologies, whereas unstructured problems might need more innovative and creative problem-solving techniques.

The Problem-Solving Process

The process of problem-solving is a methodical approach that involves several distinct stages. Each stage plays a crucial role in navigating from the initial recognition of a problem to its final resolution. Let’s explore each of these stages in detail.

Step 1: Identifying the Problem

Step 2: Defining the Problem

Once the problem is identified, the next step is to define it clearly and precisely. This is a critical phase because a well-defined problem often suggests its solution. Defining the problem involves breaking it down into smaller, more manageable parts. It also includes understanding the scope and impact of the problem. A clear definition helps in focusing efforts and resources efficiently and serves as a guide to stay on track during the problem-solving process.

Step 3: Analyzing the Problem

Step 4: Generating Solutions

Step 5: Evaluating and Selecting Solutions

After generating a list of possible solutions, the next step is to evaluate each one critically. This evaluation includes considering the feasibility, costs, benefits, and potential impact of each solution. Techniques like cost-benefit analysis, risk assessment, and scenario planning can be useful here. The aim is to select the solution that best addresses the problem in the most efficient and effective way, considering the available resources and constraints.

Step 6: Implementing the Solution

Step 7: Reviewing and Reflecting

The final stage in the problem-solving process is to review the implemented solution and reflect on its effectiveness and the process as a whole. This involves assessing whether the solution met its intended goals and what could have been done differently. Reflection is a critical part of learning and improvement. It helps in understanding what worked well and what didn’t, providing valuable insights for future problem-solving efforts.

Tools and Techniques for Effective Problem Solving

Problem-solving is a multifaceted endeavor that requires a variety of tools and techniques to navigate effectively. Different stages of the problem-solving process can benefit from specific strategies, enhancing the efficiency and effectiveness of the solutions developed. Here’s a detailed look at some key tools and techniques:

Brainstorming

SWOT Analysis (Strengths, Weaknesses, Opportunities, Threats)

Root Cause Analysis

This is a method used to identify the underlying causes of a problem, rather than just addressing its symptoms. One popular technique within root cause analysis is the “ 5 Whys ” method. This involves asking “why” multiple times (traditionally five) until the fundamental cause of the problem is uncovered. This technique encourages deeper thinking and can reveal connections that aren’t immediately obvious. By addressing the root cause, solutions are more likely to be effective and long-lasting.

Mind Mapping

Each of these tools and techniques can be adapted to different types of problems and situations. Effective problem solvers often use a combination of these methods, depending on the nature of the problem and the context in which it exists. By leveraging these tools, one can enhance their ability to dissect complex problems, generate creative solutions, and implement effective strategies to address challenges.

Developing Problem-Solving Skills

Developing problem-solving skills is a dynamic process that hinges on both practice and introspection. Engaging with a diverse array of problems enhances one’s ability to adapt and apply different strategies. This exposure is crucial as it allows individuals to encounter various scenarios, ranging from straightforward to complex, each requiring a unique approach. Collaborating with others in teams is especially beneficial. It broadens one’s perspective, offering insights into different ways of thinking and approaching problems. Such collaboration fosters a deeper understanding of how diverse viewpoints can contribute to more robust solutions.

Reflection is equally important in the development of problem-solving skills. Reflecting on both successes and failures provides valuable lessons. Successes reinforce effective strategies and boost confidence, while failures are rich learning opportunities that highlight areas for improvement. This reflective practice enables one to understand what worked, what didn’t, and why.

Critical thinking is a foundational skill in problem-solving. It involves analyzing information, evaluating different perspectives, and making reasoned judgments. Creativity is another vital component. It pushes the boundaries of conventional thinking and leads to innovative solutions. Effective communication also plays a crucial role, as it ensures that ideas are clearly understood and collaboratively refined.

In conclusion, problem-solving is an indispensable skill set that blends analytical thinking, creativity, and practical implementation. It’s a journey from understanding the problem to applying a solution and learning from the outcome.

Whether dealing with simple or complex issues, or structured or unstructured challenges, the essence of problem-solving lies in a methodical approach and the effective use of various tools and techniques. It’s a skill that is honed over time, through experience, reflection, and the continuous development of critical thinking, creativity, and communication abilities. In mastering problem-solving, one not only addresses immediate issues but also builds a foundation for future challenges, leading to more innovative and effective outcomes.

• Mourtos, N.J., Okamoto, N.D. and Rhee, J., 2004, February. Defining, teaching, and assessing problem solving skills . In  7th UICEE Annual Conference on Engineering Education  (pp. 1-5).
• Foshay, R. and Kirkley, J., 2003. Principles for teaching problem solving.   Technical paper ,  4 (1), pp.1-16.

Q: What are the key steps in the problem-solving process?

A : The problem-solving process involves several key steps: identifying the problem, defining it clearly, analyzing it to understand its root causes, generating a range of potential solutions, evaluating and selecting the most viable solution, implementing the chosen solution, and finally, reviewing and reflecting on the effectiveness of the solution and the process used to arrive at it.

Q: How can brainstorming be effectively used in problem-solving?

A: Brainstorming is effective in the solution generation phase of problem-solving. It involves gathering a group and encouraging the free flow of ideas without immediate criticism. The goal is to produce a large quantity of ideas, fostering creative thinking. This technique helps in uncovering unique and innovative solutions that might not surface in a more structured setting.

Q: What is SWOT Analysis and how does it aid in problem-solving?

A : SWOT Analysis is a strategic planning tool used to evaluate the Strengths, Weaknesses, Opportunities, and Threats involved in a situation. In problem-solving, it aids by providing a clear understanding of the internal and external factors that could impact the problem and potential solutions. This analysis helps in formulating strategies that leverage strengths and opportunities while mitigating weaknesses and threats.

Q: Why is it important to understand the nature of a problem before solving it?

A : Understanding the nature of a problem is crucial as it dictates the approach for solving it. Problems can be simple or complex, structured or unstructured, and each type requires a different strategy. A clear understanding of the problem’s nature helps in applying the appropriate methods and tools for effective resolution.

Q: How does reflection contribute to developing problem-solving skills?

A : Reflection is a critical component in developing problem-solving skills. It involves looking back at the problem-solving process and the implemented solution to assess what worked well and what didn’t. Reflecting on both successes and failures provides valuable insights and lessons, helping to refine and improve problem-solving strategies for future challenges. This reflective practice enhances one’s ability to approach problems more effectively over time.

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 www.learnleansigma.com, a platform dedicated to Lean Six Sigma and process improvement insights.

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6.4 Lean Processes

Portions of the material in this section are based on original work by Geoffrey Graybeal and produced with support from the Rebus Community. The original is freely available under the terms of the CC BY 4.0 license at https://press.rebus.community/media-innovation-and-entrepreneurship/.

Learning Objectives

By the end of this section, you will be able to:

• Discuss the lean process methodology
• Understand the phases of the lean problem-solving process.

You have learned about different problem-solving approaches that entrepreneurs take to lead their startups and work with others. Most of these approaches have had to do with the entrepreneur’s cognitive or creative mindsets. Now we will learn about an approach that is more rooted in process, called lean process . Lean problem solving has been used as an entrepreneurial methodology in new and emerging ventures, and it’s interesting that it comes from a large corporate, manufacturing background that focuses on efficiencies. The Six Sigma methodology, pioneered at Motorola in the 1970s and 1980s, and adopted by many companies, is a disciplined, data-driven approach that provides companies tools to improve the capability of their business processes. According to the American Society for Quality, “Six Sigma views all work as processes that can be defined, measured, analyzed, improved and controlled. A set of qualitative and quantitative tools is used to drive process improvement. This increase in performance and decrease in process variation helps lead to defect reduction and improvement in profits, employee morale, and quality of products or services.” 26 GE copied it and created the “ Process Excellence ” programs that millions of managers and others have taken to get certified at various “belts.” Although Six Sigma and Process Excellence do not fit strictly in terms of entrepreneurship, as they are used mainly by large, mature companies, many of the methods fit in the lean model.

Toyota pioneered the lean process in the 1980s. The term “ lean manufacturing ” is the most common, but it is much more than manufacturing. The lean process is a systematic method for the maximizing of continuous improvement and the minimization of surplus or unused material in the production of a process. The entrepreneur begins the startup with a sense the original product will be the product carrying the organization to success in the long term. In most cases, the good or service will require modification to maintain a process, technology, or up-to-date product offering. Lean problem solving means the entrepreneur’s entire team scans both the company’s internal and external environments for continuous improvement and methods for bringing additional revenue to the startup by cost improvement processes that promote sustainable value. The external environment encompasses customers, industry trends, and competition. The internal environment comprises the factors inside the enterprise, such as employees, and internal practices and processes. In lean manufacturing, for example, improving efficiencies in the internal environment should lead to advantages in the external environment (whether that be cost savings to customers, competitive advantage from more output/superior product, etc.).

For example, every mile saved per day per UPS truck driver results in approximately $50 million in savings per year, according to Juan Perez, the company’s chief information and engineering officer. Using customer data and artificial intelligence, the company created a system dubbed ORION, which is an acronym for On-Road Integrated Optimization and Navigation. 27 To date, the system has resulted in $400 million in savings to UPS. By applying the lean process, everything that UPS saves on the input (by reducing mileage) leads to savings on the output, which leads faster deliveries, lower costs for consumers, and more profit for UPS.

Lean Problem-Solving Process

The lean problem-solving process is a cycle of observation, assessment, and continual evaluation. As shown in Table 6.1 , this cycle typically involves eight specific steps.

Are You Ready?

Too much too late.

Many entrepreneurs create a startup with an idea that they develop without any feedback from potential customers, relying on their own knowledge or assumptions about the market. Consider the story of Rapid SOS: https://hbr.org/2018/05/do-entrepreneurs-need-a-strategy. What would most likely happen when they decided to go forward with their product? Will it be a fit to the customer’s needs or solve their problems? How is lean process different from this?

Lean Problem-Solving Phases

Observation is the phase in which the entrepreneur studies the challenge and notes all facets of the challenge requiring solution. In this phase, the entrepreneur asks questions and conducts research about the change needed for a successful product, outcome, or service. The entrepreneurs must determine why the change is needed. What is the purpose of the endeavor? Feedback is extremely important in this phase.

For example, a community asked a group of entrepreneurs to help address the youth obesity problem in a middle school. The entrepreneurs began to study the intake of food by the children and determined that both the content of the school lunch menu and the lifestyle of the majority of the children were affecting the obesity rate in the community. They then defined the purpose of the project as finding a low-cost, low-risk method of changing the lunch menu and agreed that the primary outcome would be a 30 percent reduction in the obesity rate of the children. The entrepreneurs began to assess the cost of changing the lunch menu and observing what else the kids ate. The entrepreneurs discovered that the lunch menu change required to reduce the obesity rate was beyond the financial capability of the school district. Research also showed that many of the children, products of single-parent homes, were eating high-calorie, high-fat, take-out foods for dinner. Further observation revealed that the children did not engage in physical activity after hours because the local surroundings were not safe. The community needed a process to transform the wellness of the children, and the entrepreneurs recommended using a lean process approach to help the children as quickly as possible.

After the observation of the problem comes assessment , the phase in which the entrepreneur experiments and analyzes the potential process and its capabilities. The entrepreneur leverages creative tools and resources to arrive at a solution and assesses each step of a possible solution. Each step must add value to the solution, or that step in the solution is unnecessary. In addition, the step must be capable of solving the issue and add flexibility to the solution. How is the process or product being improved? In this phase, a prototype of the product is developed and delivered. The entrepreneur must ask the customer if all needs and wants are satisfied with the prototype. If the prototype is being developed for mass production, surveying customers about potential sales is essential. In the school lunch example, the school system would have been the customer of the new food menu (prototype) in the assessment phase.

Evaluation is the phase in which behaviors are analyzed to assess success. The entrepreneur continually studies each phase of the solution to observe the effectiveness of outcomes desired by the client. The entrepreneur ensures that transformation is built into the habits of the school to obtain, maintain, and develop the desired outcomes.

In a real-world example of a company applying lean processes, the New Balance Company , which designs and manufactures both athletic and casual shoes, used a batching approach in the early 2000s that organized production by departments, so that all of the cutting took place in one department, all of the stitching took place in another, and so forth. While it seems that batching tasks would improve efficiency, at New Balance, it meant that production of one pair of shoes took nine days. Executives observed piles of inventory sitting between floors and departments, and noticed employees waiting while there were delays in the production line. They also noticed that the pay structure contributed to the piles of works in process because employees were paid by the piece, which encouraged them to produce as much as possible.

The company applied lean principles to rearrange the production floor by value streams, or the making of a product by sharing similar processing steps. On one side was “cut and stitch” products using US materials of leather and mesh, while another side used premade products from overseas for soles, inserts, and kits. This change cut the time to make a pair of shoes down to four hours, meaning that domestic plants could ship some orders in twenty-four hours, while competitors may need as much as 121 days to ship when they outsourced manufacturing to Asia.

An often-used lean problem-solving tool is whiteboarding ( Figure 6.16 ). Whiteboarding is a type of graphing that permits the entrepreneur to plot each step in a process to build comprehension and detailing of the process. The entrepreneur draws each step on the whiteboard using a linking-type diagram, and draws arrows to show how processes affect other processes. Seeing the flow of the process allows the entrepreneur to note where functions in the process are duplicated or inconsistent.

For example, in a community garden, storing tools, such as hoes and hand trowels for weeding, in different sheds wastes time when preparing to begin the process of weeding. These tools should be stored collectively to eliminate multiple trips and wasted time. Seeing the process on a whiteboard or other medium brings awareness to how processes can be improved. After the process is changed, it is graphed again for further scrutiny.

Entrepreneur In Action

The origin of lean.

Would it surprise you to know the origin of lean, in modern times, is considered to be Henry Ford’s production line? Although we don’t necessarily think of the creation of automobiles as an entrepreneurial venture in today’s world, Henry Ford was truly an entrepreneur for his time when the manufacture of automobiles was just beginning. Not only did he recognize the opportunity inherent in the sale of automobiles, he recognized the need to create an efficient process for automobile production that could decrease costs and, consequently, the selling price of the vehicle. As the first entrepreneur to join the use of interchangeable parts with moving conveyance to develop fabrication processes, Ford was able to turn over inventory in a very short time; however, Ford’s process could not deliver variety. In fact, Ford was quoted as saying of the Model T’s color, “You can have any color as long as it's black.” 29 It had the fastest drying time; hence, it was the only color he used for a number of years.

The Ford system was built around one static product. In the 1930s, when the market demanded product variety, the company was not set up to address this challenge. Kiichiro Toyoda ( Figure 6.17 ), the second president of Toyota Motor Corporation , visited the Ford plant in Michigan to learn more about their application of the assembly line concept. After observing, he proposed a new production system that would strive to “right size” equipment to better match tasks and the volume of work, as well as introducing quality assurance steps in each sequence of the work process. Toyoda’s approach shifted the focus from machinery to process, optimizing efficiency while maintaining quality.

• 26 American Society for Quality. “What Is Six Sigma?” n.d. https://asq.org/quality-resources/six-sigma
• 27 Juan Perez. “UPS’ Approach to Innovation and Technology.” Presentation sponsored by J. Mack Robinson College of Business, Georgia State University, Atlanta, GA. March 28, 2019.
• 28 “Genchi Genbutsu.” Lean HE Glossary . n.d. http://www.leanhe.org/lean-he/glossary#TOC-Genchi-Genbutsu
• 29 Diana T. Kurylko. “Model T Had Many Shades; Black Dried Fastest.” Automotive News . June 16, 2003. http://www.autonews.com/article/20030616/SUB/306160713/model-t-had-many-shades%3B-black-dried-fastest

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• Authors: Michael Laverty, Chris Littel
• Publisher/website: OpenStax
• Book title: Entrepreneurship
• Publication date: Jan 16, 2020
• Location: Houston, Texas
• Book URL: https://openstax.org/books/entrepreneurship/pages/1-introduction
• Section URL: https://openstax.org/books/entrepreneurship/pages/6-4-lean-processes

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