1 / 43

Department of Defense Lean Six Sigma

Lean 6 σ. Department of Defense Lean Six Sigma. Executive level overview. Lean 6 σ. There must be a better way!. Agenda: Lean Six Sigma Overview The foundation of LSS Lean / Six Sigma / LSS DMAIC. Terminal Learning Objective. Task: Apply DMAIC to a Simple Work Process

jovan
Download Presentation

Department of Defense Lean Six Sigma

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lean 6σ Department of DefenseLean Six Sigma Executive level overview

  2. Lean 6σ There must be a better way! • Agenda: • Lean Six Sigma Overview • The foundation of LSS • Lean / Six Sigma / LSS • DMAIC

  3. Terminal Learning Objective • Task: Apply DMAIC to a Simple Work Process • Condition: You are training to become an ACE with access to ICAM course handouts, readings, and spreadsheet tools and awareness of Operational Environment (OE)/Contemporary Operational Environment (COE) variables and actors • Standard: with at least 80% accuracy: • Describe the foundation of Lean and Six Sigma • Define the underlying theory of Six Sigma • Describe the principles of Lean Six Sigma • Explain the concepts of DMAIC

  4. Lean 6σ Lean Six Sigma overview • Why Lean Six Sigma • Principles and Tools • Deputy Chief of Staff Army G-1 www.armyg1.army.mil/leansixsigma/whatislss.asp • Performance Excellence… A Lean Six Sigma World-Class Methodology • Where to Start…Voice of the Customer

  5. Lean 6σ Foundation to Lean 6 Sigma • Definitions of Insanity: • Doing the same thing over and over and expecting a different outcome! • AND • Using the same logic to get out of the trouble that got you there in the first place! Albert Einstein

  6. Lean 6σ Foundation to Lean 6 Sigma • "To measure is to know.“ • "If you can not measure it, you can not improve it.“ • "…I often say that when you can measure what you are speaking about, and express it in numbers, you know something about it; but when you cannot measure it, when you cannot express it in numbers, your knowledge is of a meager and unsatisfactory kind ” Lord Kelvin

  7. Lean 6σ Right Training. Right Attitude • Lean Six Sigma is not rocket science…you can do this • Lean Six Sigma is not “easy”…it requires dedication and effort • Lean Six Sigma is not the next program…it is a way of thinking…an approach to every task performed, that asks the question…“does this add value?”

  8. Lean 6σ What is Lean? • Identifying improvement opportunities in processes • Utilizes scientific problem solving methods • Focus on reducing non-value added steps in a process • Analyzing and improving process flows • Reducing complexity • Solving many smaller problems

  9. Lean 6σ Value-Added Activities

  10. Lean 6σ The Lean Ladder

  11. Lean 6σ Eight Types of Waste • Wastes-Those Elements of a process that Do Not Increase the Value of a Product or Serviceas perceived by the Customer, butIncreases Cost and Cycle times. • IDENTIFY AND ELIMINATE THESE WASTES: • Types of Waste: • T Transportation • I Inventory (Excess) • M Motion • W Waiting • O Over-producing • O Over-processing • D Defects • U Under utilization of employees

  12. Lean 6σ Learning Check • Why should Lean be considered? • What are Value added Activities? • What are some of the types of waste?

  13. Lean 6σ What Is Sigma σ?

  14. Lean 6σ What is Six Sigma? • A Philosophy for Quality Improvement • Uses a structured approach to problem solving • Utilizes Scientific Problem Solving Methods • A Statistical Measure of Variability • When Achieved, Reduces Defects in an Operation or Process to 3.4 Defects per Million Opportunities DPMO • A Way to Achieve Significant Savings • Breakthrough Improvements in Performance • 6 σis about making money

  15. Lean 6σ Why Use Sigma As a Metric?

  16. Lean 6σ Six Sigma Defined Six Sigma: • Is a systematic methodology utilizing effective data analysis tools and techniques to improve performance by eliminating / preventing defects and inefficiencies’ in processes, to meet and exceed customer needs. • Derives from a 99.99966% error free quality level OR less than 3.4 errors per million opportunities

  17. Lean 6σ Learning Check • What is Sigma σ? • What is Six Sigma? • Why use Sigma as a metric? • Define DPMO

  18. Lean 6σ Integrating Lean and Six Sigma • Natural evolution • Applies the right tools to a project • Leverages tools and methodologies to maximize process improvements • Reducing waste and variability go hand in hand in process improvement

  19. Lean 6σ What Lean Six Sigma is not • A complicated way to manage your organization • Anew way for the “Quality Department” to audit reports and performance • Something that requires you to discard what you learned with TQM, CQI, etc. • A new way to spend money without clear benefit to the organization • Something that requires a complicated computer system • A way to eliminate jobs

  20. Lean 6σ History of Lean, Six Sigma • Frederick W. Taylor: 1880s-early 1900s, systematicstudy of workers’ use of time and motion • Henry Ford: continuous flow production, wasteelimination • TWI: (Training Within Industry), 1940-1945 • W.E. Deming and Joseph Juran: took quality control to Japan in 1953 • Kiichiro Toyoda and Taiichi Ohno: low inventories, flexibility • U.S. supermarkets: pull systems • Shigeo Shingo: mistake proofing, reduced set up times • Toyota Production System NIKE • MIT and James Womack: bring Lean back to U.S. • NBC White Paper: If Japan can, Why can’t we?, 1980s • Eli Goldratt: published book The Goal”, early 1980’s • Motorola: global deployment launched Six Sigma 1987, opportunity for error

  21. Lean 6σ Why Use Lean Six Sigma • LSS is the CPI industry standard • Increases throughput • Shortens cycle times • Reduces defects • Lowers cost

  22. Lean 6σ Versatility

  23. Lean 6σ When to Use the LSS Process • When to Use: • Driven by the Business Strategy • Problems that “have been around as long as we can remember.” • Solution is not known or is not obvious • You are willing to commit people to identify and resolve the issue • You want a more definitive solution than traditional methods can provide • You want to encourage the upward flow of ideas and build team spirit • You want group ownership of a course of action • When NOT to Use: • You don’t have a specific challenge or clear issue to solve • You already have a solution and course of action • You don’t have a consistent process to improve

  24. Lean 6σ Lean Six Sigma Principles • Identify value in the eyes of the Customer • Learn to see your processes from the perspective of your customer • Identify the value stream and eliminate waste/variation • Make value flow at the pull of the customer • Involve, align, and empower employees • Develop solutions using the people who are currently working in the process • Continuously improve knowledge in pursuit of perfection

  25. Lean 6σ Continuous Improvement • A framework for constantly improving organizational performance • Provides steady, incremental improvement in everything we do to meet/exceed changing expectations: • Better quality • Faster turnaround • Lower costs • More responsive service • A relentless, never-ending process • Requires that we all change the way we think talk work think, talk, work, and act

  26. Lean 6σ A Program of Process Improvement Continuous Process Improvement (CPI) is a deliberate change in Process Performance

  27. Lean 6σ The Importance of Reducing Variation • To increase a process Sigma Level, you have to decrease the variation • Less variation provides: • Greater predictability in the process • Less waste and rework, which lowers cost • Products and services that perform better and last longer • Happier customers

  28. Lean 6σ Foundation to Six Sigma Y = f(X)

  29. Lean 6σ Identify and control the X’s • Y = f(X1,X2,…) • In Improvement • Identify the key X’s to reduce variation in the Y • In Design • Carefully set specifications on the X’s so that we get the desired Y • In Process Management • Monitor and control the X’s to assure we will get the desired Y Process output is A function of Key process and input factors that cause variation in the output

  30. Lean 6σ Why Aim as High as 6 Sigma?

  31. Lean 6σ The Look of 6σ Performance

  32. Lean 6σ Culture of Performance Improvement

  33. Lean 6σ Learning Check • Why combine Lean manufacturing with Six Sigma? • Why aim for 6σ? • How do you improve a sigma level?

  34. Lean 6σ Overview of DMAIC

  35. Lean 6σ The DMAIC Process • Provides a structured approach for addressing problems • Provides a common language • Minimizes the risk of jumping to the wrong conclusion • Provides a checklist to prevent skipping steps • Each step has goals, tools and outputs • Tollgate reviews occur at each phase

  36. Lean 6σ Define • Goal • Define project purpose and scope and obtain background information on the process and its customers • Outputs • Cleat statement of the intended problem and how to measure it • High-level process map • Key quality characteristics • Approach • Develop project charter • Map the process • Understand the voice of the customer

  37. Lean 6σ Measure • Goal • Focus the improvement effort by gathering information about the current situation • Outputs • Baseline performance data • Common understanding of how the process currently operates • More focused problem statement • Approach • Collect data and check special causes • Create detailed process maps

  38. Lean 6σ Analyze • Goal • Identify root cause and confirm with data • Outputs • A tested and confirmed theory • Understanding of the effects of the inputs on the output • Approach • Explore and organize potential causes • Use statistical methods to quantify a cause-and-effect relationship

  39. Lean 6σ Improve • Goal • Develop, try out and implement solutions • Outputs • Planned and tested actions that eliminate or reduce the impact of root causes • Comparison of “before” and “after” data to show effects • Approach • Create possible solutions • Select solutions and develop plans • Implement plans and measure results

  40. Lean 6σ Control • Goal • Maintain the gains by standardizing work methods or processes • Outputs • Documentation of new methods • Train others in the new process • System for monitoring the new process • Approach • Develop and document standard practices • Train teams and monitor performance • Create process for updating procedures • Summarize and communicate learning

  41. Lean 6σ Learning Check • What does DMAIC stand for? • Describe the DMAIC process?

  42. Lean 6σ Lean Six Sigma Simulation • Score for your team • First round will use standard MRP batching process as defined by the instructor • Second round implement the changes suggested by the class using DMAIC • Each round will last 15 minutes • The team with the most point WINS!!

  43. Lean 6σ Questions? The Army OBT has more information on LSS and trainingopportunities. www.armyg1.army.mil/leansixsigma/whatislss.asp Do you have any questions? Thank you for joining our discussion today.

More Related