Lean Six Sigma For Dummies. Martin Brenig-Jones
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Название: Lean Six Sigma For Dummies

Автор: Martin Brenig-Jones

Издательство: John Wiley & Sons Limited

Жанр: Экономика

Серия:

isbn: 9781119796732

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СКАЧАТЬ against the customer requirement, the CTQ, and taking into account the number of defects involved where you fail to meet it (that is, all those cases that took more than five days).

      We explain the Process Sigma calculation in the next section.

      Calculating Process Sigma values

      Here are three good reasons for calculating Process Sigma:

       It makes you consider customers’ performance needs. How long are they prepared to wait for their order to be processed?

       It makes it easier to compare the performance of different processes. If different metrics are used for each process, comparison is tricky, and it’s difficult to prioritize improvements. Process Sigma is a standard quality metric that can be used to measure any process.© Martin Brenig-Jones and Jo DowdallFIGURE 1-5: Highlighting defects.

       It supports decision-making on what performance needs to be, rather than using an arbitrary target. For example, 99.9 percent success sounds impressive, but it would mean 100 plane crashes worldwide every day, and one hour without electricity every month.

      The Process Sigma value represents the population of cases that meet the CTQs right first time. Sigma values are expressed as defects per million opportunities (DPMO) to emphasize the need for world-class performance.

      Not all organizations using Six Sigma calculate Process Sigma values. Some organizations just use the number of defects or the percentage of orders meeting CTQs to show their performance. Either way, if benchmarking is to be meaningful, the calculations must be made in a consistent manner.

      Calculating the DPMO for your process measures quality using defects rather than defectives. This is an important distinction that requires more explanation.

      Let's say your customer has several CTQs relating to an order — for example not just the speed (cycle time) but also accuracy and completeness. Each CTQ represents a defect opportunity. Thus, more than one defect may occur in the transaction. You could have a situation whereby the speed CTQ was met, but the accuracy and completeness CTQs were missed. The outcome would be one defective delivery (as a result of these two defects).

Schematic illustration of Abridged Process Sigma conversion table.

      © Martin Brenig-Jones and Jo Dowdall

      FIGURE 1-6: Abridged Process Sigma conversion table.

       Unit: The item produced or processed.

       Defect: Any event that does not meet the CTQ.

       Defect opportunity: Any event that provides a chance of not meeting a customer CTQ. The number of defect opportunities will equal the number of CTQs.

       Defective: A unit with one or more defects.

Schematic illustration of Calculating Process Sigma values.

      © Martin Brenig-Jones and Jo Dowdall

      FIGURE 1-7: Calculating Process Sigma values.

      Bringing Lean and Six Sigma together

      A natural synergy exists between Lean and Six Sigma, and your organization needs both. Bringing the two together provides a sound set of principles and a broad set of tools and techniques that can enhance effectiveness and delivery efficiency. We’ll explore this further in Chapter 2.

      Lean Six Sigma has evolved significantly since its inception. Today’s Lean Six Sigma is more than a combination of Lean and Six Sigma: It includes Change Management, Project Management, Agility, Design Thinking, and more. In the spirit of Continuous Improvement, it’s fitting to include “the best of the best” frameworks, tools, techniques and approaches in this edition of Lean Six Sigma For Dummies. These firmly establish the ongoing relevance and value of Lean Six Sigma.

      But bear in mind the importance of a pragmatic approach. The “new” elements haven’t been included because they sound impressive; they've been included because they work. As with Lean and Six Sigma, we’ll outline some basics here and delve into detail in future chapters.

      Managing change

      Lean Six Sigma practitioners should make good use of frameworks, tools, and techniques to manage change, as people’s acceptance and engagement is vital if any change or improvement is going to succeed. Bringing Change Management into Lean Six Sigma can help you to do the following:

       Establish and communicate a clear need for change and sense of purpose.

       Build engagement with stakeholders.

       Develop a vision and a plan that gives people a clear picture of “what’s in it for me.”

       Handle resistance and conflict while supporting the team to make change happen.

       Embed change by addressing aspects of behavior that could reinforce or hinder it.

       Monitor progress.

       Communicate СКАЧАТЬ