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词条 Lean dynamics
释义

  1. Overview

  2. Background

  3. See also

  4. References

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Lean dynamics is a business management practice that emphasizes the same primary outcome as lean manufacturing or lean production of eliminating wasteful expenditure of resources. However, it is distinguished by its different focus of creating a structure for accommodating the dynamic business conditions that cause these wastes to accumulate in the first place.

Like lean manufacturing, lean dynamics is a variation on the theme of creating efficiencies and greater value by optimizing flow rather than by maximizing economies of scale.[1][2] As such, it represents an important chapter in the broader discussion of Taylorism,[3] Fordisim,[4] Alfred Sloan's standard volume methodology,[5] Peter Drucker's philosophy on the "theory of the business"[6] and Genichi Taguchi's analysis of loss. Its general philosophy has grown in popularity over recent years, in large part because of the increasingly challenging circumstances faced by the global business world (particularly evident during the 2008–2009 worldwide economic downturn.)[7]

This need to create greater efficiencies while competing in an environment that demands constant change and innovation seems to be responsible for the emergence of lean dynamics as a recognized business improvement approach.[8]

Overview

The term "lean" was first coined by a researcher at MIT and later popularized by the best-selling book, The Machine that Changed the World (1990).[9] Those implementing lean principles generally focus on applying lean tools which have been described in a number of references over the past two decades[10][11][12] with the focus of seeking out and directly targeting "waste" (its seven forms described by Taiichi Ohno in Toyota Production System [13] are well known.) This emphasis can result in greater efficiencies that do not necessarily respond well when business conditions shift.

Lean dynamics takes a different approach. Introduced by the book, Going Lean,[14] it does not directly target the desired outcome of waste elimination; instead, it focuses on identifying and addressing sources of "lag", or imbedded disconnects in flowing value through operations, decision-making, information, and innovation that lead to workarounds and amplify disruption when business conditions change. It promotes a different way of structuring the business that creates an inherent "dynamic stability" or greater responsiveness for accommodating shifting business conditions. Companies that are structured in this way show dramatically greater customer value{{Citation needed|date=May 2015}} as measured by their quality, innovation, and customer satisfaction; they also sustain greater corporate value as measured by profitability, market capitalization, and growth.

Lean dynamics uses the value curve as a data-driven way of directly comparing companies to distinguish lean firms from other industries.

Implementation of lean dynamics focuses on driving down the impact that variation[15] has on loss (based on the loss function from the Taguchi methods often described by the famous business statistician W. Edwards Deming[16]), a concept describing the dramatic reduction of value-creating capabilities that traditional management systems display when subjected to sudden shifts in product demand, energy prices, or other conditions that affect operational stability or predictability.

Lean dynamics is particularly versatile in that it can be applied to a wide range of manufacturing and service industries. Its methods have been studied for Aerospace and Defense (particularly as applied to procuring hard to get spare parts[17]), and medical, and distinguishes the few that stand out during crisis such as airlines, and retail.

Background

Lean dynamics has its roots in a global study of lean manufacturing in the aerospace industry aimed at understanding how to break its cycle of cost escalation that was making new products unaffordable. These results were described in the Shingo Prize winning book, Breaking the Cost Barrier.[18] This study showed that directly targeting “waste” reduction as the focal point for lean programs does not lead to significant cost savings. Instead, it provided strong evidence that emphasis should be placed on applying lean principles to mitigate the amplification of variation that causes workarounds. Addressing this variation was critical to overcoming the disruption that often causes waste to accumulate in the first place. Other sources cited this, identifying occurrences across other industries.[19]

Subsequent research of the aerospace industry showed that firms had accepted these findings, describing this approach of Variation Management as "...one of the most prominent approaches to transforming and improving military enterprise performance."[20]

This phenomenon was validated by correlating the disruption caused by variation in flow (measured as cycle time variation) with "loss" as described by the Taguchi Loss Function (see Taguchi Methods). Sudden changes in business conditions, such as spikes or decreases in production demand, cause increases in variation from forecasted conditions, causing disruption, and causing waste to accumulate. A lean dynamics approach restructures the way operations, organizations, information, and innovation are structured to overcome this.[21]

One method for companies to deal internally with externally driven variation (such as sudden spikes in demand), a core tenet of lean dynamics, was explored by the Defense Department under the Supplier Utilization through Responsive Grouped Enterprises (SURGE) Program. The SURGE program was partially sponsored by the Joint Strike Fighter Program (JSF)(F-35 Lightning II) This program aimed to reduce factory disruption due to demand variation by grouping parts together that shared similar manufacturing processes. It succeeded in reducing lead time on a number of critical aerospace items by as much as 60%. The SURGE program gained notoriety when it was mentioned on the popular TV Show JAG.[22]

See also

Those areas below are linked to this subject:
  • Lean Manufacturing
  • Toyota Production System
  • Taguchi Loss Function
  • Six Sigma
  • Statistical Process Control
Terminology
  • Variation Management
  • Value Curve
  • Production Leveling
  • Muda, Mura, Muri
  • Workcell
  • Cycle Time Variation

References

1. ^Womack, James P. and Jones, Daniel (1997), Lean Thinking: Banish Waste and Create Wealth in Your Company, Simon & Schuster, {{ISBN|0-7432-4927-5}}
2. ^Liker, Jeffrey (2003), The Toyota Way, McGraw Hill, {{ISBN|0-07-139231-9}}
3. ^Taylor, Frederick Winslow (1911), The Principles of Scientific Management, Norton, {{ISBN|0-393-00398-1}}
4. ^Ford, Henry (1927), Today and Tomorrow, Productivity Press, {{ISBN|0-915299-36-4}}
5. ^Sloan, Alfred P.(1965), My Years With General Motors, Macfadden
6. ^Drucker, Peter (1995), Managing for a Time of Great Change, Truman Talley Books/Dutton, {{ISBN|0-525-94053-7}}
7. ^[Going Lean as a Solution to Navigating Uncertainty and Crisis, Ivey Business Journal, March, 2009]{{cite web|url=http://www.iveybusinessjournal.com/article.asp?intArticle_ID%3D823 |title=Archived copy |accessdate=2009-04-19 |deadurl=yes |archiveurl=https://web.archive.org/web/20091221071958/http://www.iveybusinessjournal.com/article.asp?intArticle_id=823 |archivedate=2009-12-21 |df= }}
8. ^Going Lean Teaches You How to Live with Change, Six Sigma
9. ^Womack, James P.,Jones, Daniel T., and Roos, Daniel (1991), The Machine That Changed The World: The Story of Lean Production, Harper Perennial, {{ISBN|978-0-06-097417-6}}
10. ^Suzaki, Kiyoshi (1987), The New Manufacturing Challenge: Techniques for Continuous Improvement, Free Press, {{ISBN|0-02-932040-2}}
11. ^Shingo, Shigeo, A Study of the Toyota Production System: From an Industrial Engineering Viewpoint (1989), Productivity Press, {{ISBN|0-915299-17-8}}
12. ^Schonberger, Richard (1982), Japanese Manufacturing Techniques, Free Press, {{ISBN|0-02-929100-3}}
13. ^Taiichi Ohno (1988), Toyota Production System, Productivity Press, {{ISBN|0-915299-14-3}}
14. ^Ruffa, Stephen A. (2008), Going Lean: How the Best Companies Apply Lean Manufacturing Principles to Shatter Uncertainty, Drive Innovation, and Maximize Profits, AMACOM, {{ISBN|0-8144-1057-X}}
15. ^Deming, W. Edwards, (1982), Out of the Crisis, MIT, {{ISBN|0-911379-01-0}}
16. ^Deming, W. Edwards, (1993), The New Economics: For Industry, Government, Education, MIT, {{ISBN|0-911379-05-3}}
17. ^Part'>Grouping: Angioplasty for the Supply Chain, (Spring 2003), Air Force Journal of Logistics
18. ^Ruffa, Stephen A., and Perozziello, Michael (2000), Breaking the Cost Barrier: A Proven Approach to Managing and Implementing Lean Manufacturing, Wiley, {{ISBN|0-471-38136-5}}
19. ^Schonberger, Richard J. (2001), Let's Fix It!, Free Press, {{ISBN|0-7432-1551-6}}
20. ^Mathaisel, Dennis F. X., (2007), Sustaining the Military Enterprise: An Architecture for a Lean Transformation, Auerbach
21. ^[https://books.google.com/books?id=_Q7OGDd61hkC Ruffa, Stephen A. (2008), Going Lean: How the Best Companies Apply Lean Manufacturing Principles to Shatter Uncertainty, Drive Innovation, and Maximize Profits, AMACOM] {{ISBN|0-8144-1057-X}}
22. ^JAG Episode 9 (Season 6), "Family Secrets"(6:33), first aired December 12, 2000{{dead link|date=May 2017 |bot=InternetArchiveBot |fix-attempted=yes }}
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