We may not have the course you’re looking for. If you enquire or give us a call on +44 1344 203 999 and speak to our training experts, we may still be able to help with your training requirements.
Training Outcomes Within Your Budget!
We ensure quality, budget-alignment, and timely delivery by our expert instructors.
Organisations are always striving to improve their business processes, reduce waste, and enhance customer satisfaction. Thus, it is vital for them to understand the Difference Between Lean vs Six Sigma, two popular methodologies significantly recognised by companies in the pursuit to progress.
While these approaches share the common goal of streamlining operations and improving overall performance, they have distinct principles, tools, and applications. While Lean focuses on minimising waste and enhancing process flow, Six Sigma concentrates on reducing defects and process variation. But, there more to understand about their differences.
This blog will help you learn the Difference Between Lean vs Six Sigma, which describes a methodical approach to eliminating waste from organisational systems.
Table of Contents
1) What is Lean?
2) What is Six Sigma?
3) Key Difference Between Lean and Six Sigma
4) Lean vs. Six Sigma: Which methodology is a better option for you?
5) Conclusion
What is Lean?
Lean, also referred to as ‘Lean Manufacturing’ or ‘Lean Thinking’, is a management philosophy and methodology that originated in the automotive industry. It was further popularised by Toyota as the Toyota Production System.
It focuses on maximising customer value while minimising waste, ultimately improving efficiency and reducing costs. Lean principles and techniques have since been adopted by various industries worldwide, revolutionising the ways by which organisations approach Process Improvement.
Now the core principle of Lean is to identify and eliminate waste, which refers to any activity or process that is not valuable from the customer’s perspective. Organisations can streamline their operations and eliminate waste, thus achieving significant improvements in productivity, quality, and customer satisfaction.
One of the fundamental concepts in Lean is value. Organisations implementing Lean understand that value is defined by their customers, and all activities must be aligned to deliver that value. They can focus on identifying the value-added activities and eliminate or minimise non-value-added activities in the process.
Furthermore, another important concept in Lean methodology is the value stream. A value stream is the sequence of steps and processes involved in delivering a product or service to the customer.
Lean practitioners use value stream mapping, which is a visual representation of the entire value stream, to identify areas of waste, bottlenecks, and inefficiencies. This identification enables them to pinpoint specific areas for improvement and prioritise their efforts.
Additionally, Lean emphasises the importance of flow, which refers to the smooth and uninterrupted movement of work through a process. Organisations can eliminate barriers and bottlenecks and thus improve cycle times, reduce lead times, and increase overall process efficiency. The ultimate goal is to create a seamless flow of work from start to finish, minimising delays and waiting times.
Moreover, Lean also promotes the concept of pull, which is a demand-driven system where products or services are produced only when needed. Organisations can strive to avoid overproduction and excess inventory, thus reducing costs, minimising waste, and responding immediately to customer demand.
The lean methodology identifies seven categories of waste which are common across most production systems. Here is a brief look at the list of the seven categories:
a) Overproduction: Occurs in cases where unwanted products are made
b) Waiting: Refers to the duration of lag between each production stage
c) Transport: Occurs because of inefficient movement of materials or products
d) Motion: Poor work standards and inefficient movement of employees during tasks
e) Over-processing: Excess time spent producing products in an inefficient fashion
f) Inventory: Inventory levels crossing their capacity leading to work-overload
g) Defects: Number of times spent by employees in identifying and tackling production errors
What is Six Sigma?
Six Sigma is a data-driven methodology and management philosophy that focuses on reducing defects and variation in processes. The concept aims to improve quality, efficiency, and customer satisfaction. Developed by Motorola in the 1980s, Six Sigma has gained widespread recognition and adoption across industries as a powerful tool for improving processes and solving problems.
It is vital for organisations to understand How Does Six Sigma Work, to achieve near-perfection by systematically identifying and eliminating sources of variation and defects. The term “Six Sigma” refers to a statistical measure that represents a level of quality where the probability of a defect occurring is extremely low, with approximately 3.4 defects per million opportunities.
Six Sigma follows a structured problem-solving approach known as ‘DMAIC’, which stands for Define, Measure, Analyse, Improve, and Control. This methodology provides a systematic framework for tackling Process Improvement projects, including the following:
a) Define: Clearly define the problem or opportunity for improvement and establish project goals. This stage involves understanding customer requirements and expectations.
b) Measure: Collecting and analysing data to measure the current performance of the process and identify areas for improvement. This step involves identifying key process metrics and establishing a baseline.
c) Analyse: Conduct in-depth data analysis to identify the root causes of defects and variation. Statistical tools and techniques are employed to understand the relationship between process inputs and outputs.
d) Improve: Implementing solutions to address the identified root causes and improve process performance. This stage focuses on testing and implementing process changes that lead to significant improvement.
e) Control: Establishing controls and monitoring systems to sustain the improvements over time. Control plans are developed to ensure that the improved process remains stable and continues to deliver the desired results.
Six Sigma practitioners utilise a range of statistical tools and methodologies to drive Process Improvement. These tools include hypothesis testing, Design of Experiments (DOE), Statistical Process Control (SPC), and process capability analysis, among others. By leveraging data and statistical analysis, organisations can make informed decisions and identify the most effective improvement strategies.
Furthermore, Six Sigma promotes a culture of data-driven decision-making, where decisions are based on facts and data rather than assumptions or opinions. It emphasises the importance of measuring and analysing performance, setting goals, and continuously monitoring progress towards those goals.
Implement Lean Six Sigma principles by signing up for the DMAIC Training now!
Key Difference Between Lean and Six Sigma
The table below highlights the Key Differences Between Lean and Six Sigma:
Aspect |
Lean |
Six Sigma |
Focus |
Minimising waste and enhancing process flow |
Reducing defects and minimising process variation . |
Objectives |
Improving efficiency, speed, and customer value |
Enhancing quality, reducing defects, and customer satisfaction |
Methodologies |
Value stream mapping, Kanban, 5S, Kaizen events |
Define, Measure, Analyse, Improve, Control (DMAIC), hypothesis testing, statistical analysis |
Scope |
Applies to entire value streams or processes |
Often used for specific projects or problem-solving initiatives |
Mindset |
Emphasises continuous improvement and teamwork |
Data-driven decision-making and structured problem-solving |
Culture |
Encourages employee involvement and empowerment |
Focuses on data and statistical analysis |
Roles |
Cross-functional team collaboration is essential |
Six Sigma Green Belts, Black Belts, and Champions |
Responsibilities |
Everyone contributes to Process Improvement |
Project leaders and teams responsible for improvement initiatives |
Approach |
Eliminating non-value-added activities |
Identifying and addressing root causes of process variation |
Time |
Lean emphasises quicker implementation |
Six Sigma projects may have longer durations |
Customer Focus |
Lean aims to enhance customer value and satisfaction |
Six Sigma focuses on meeting customer requirements and reducing defects |
Lean vs Six Sigma: Which methodology is a better option for you?
Lean and Six Sigma are two different methodologies, serving different purpose. The Lean methodology can be the perfect fit for a company which looking for a simple and iterative framework that can help them drive growth and improvement. On the other hand, the Six Sigma methodology will be better suited if the organisation intends to minimise unpredictability and further improve their efficiency in a complex corporate setting .
Furthermore, the Lean and Six Sigma methodologies can be combined to bring about a new hybrid method called ‘Lean Six Sigma’. This method can help organisations get the best out of both frameworks. Moreover, organisations can find the implementation of the Lean Six Sigma framework very effective for reducing costs and waste. The framework especially allows the company to improve its operational and quality of the outputs.
More importantly, there is no one-size-fits-all-solution in this scenario as companies can make a choice or charter their framework as a combination of both methodologies, enjoying the rewards of the new hybrid model in the long-term.
Conclusion
This blog has discussed the Difference Between Lean vs Six Sigma, which are two powerful methodologies that improve processes through their distinct approaches to improvement.
By employing a methodology suitable for their needs, organisations can achieve comprehensive and sustainable improvements in their operations. As a result, they can drive a competitive advantage in today’s dynamic business environment.
Improve your business and drive customer satisfaction by signing up for our Lean Six Sigma Certification Training now!
Frequently Asked Questions
Upcoming Business Improvement Resources Batches & Dates
Date
Mon 25th Nov 2024
Mon 2nd Dec 2024
Sat 7th Dec 2024, Sun 8th Dec 2024
Mon 9th Dec 2024
Mon 16th Dec 2024
Mon 6th Jan 2025
Mon 13th Jan 2025
Mon 20th Jan 2025
Mon 27th Jan 2025
Mon 3rd Feb 2025
Mon 10th Feb 2025
Mon 17th Feb 2025
Mon 24th Feb 2025
Mon 3rd Mar 2025
Mon 10th Mar 2025
Mon 17th Mar 2025
Mon 24th Mar 2025
Mon 31st Mar 2025
Mon 7th Apr 2025
Mon 14th Apr 2025
Tue 22nd Apr 2025
Mon 28th Apr 2025
Tue 6th May 2025
Mon 12th May 2025
Mon 19th May 2025
Tue 27th May 2025
Mon 2nd Jun 2025
Mon 9th Jun 2025
Mon 16th Jun 2025
Mon 23rd Jun 2025
Mon 30th Jun 2025
Mon 7th Jul 2025
Mon 14th Jul 2025
Mon 21st Jul 2025
Mon 28th Jul 2025
Mon 4th Aug 2025
Mon 11th Aug 2025
Mon 18th Aug 2025
Tue 26th Aug 2025
Mon 1st Sep 2025
Mon 8th Sep 2025
Mon 15th Sep 2025
Mon 22nd Sep 2025
Mon 29th Sep 2025
Mon 6th Oct 2025
Mon 13th Oct 2025
Mon 20th Oct 2025
Mon 27th Oct 2025
Mon 3rd Nov 2025
Mon 10th Nov 2025
Mon 17th Nov 2025
Mon 24th Nov 2025
Mon 1st Dec 2025
Mon 8th Dec 2025
Mon 15th Dec 2025