Six Sigma
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225561205
2008-07-14T09:13:38Z
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Reverted edits by [[Special:Contributions/123.237.14.36|123.237.14.36]] to last version by Kuru (using [[WP:HG|Huggle]])
{{Distinguish|Sigma 6}}
[[Image:Six sigma-2.svg|thumb|206px|The often-used six sigma symbol.]]
{{Manufacturing}}
'''Six Sigma''' is a [[business management]] strategy, originally developed by [[Motorola]], that today enjoys wide-spread application in many sectors of industry.
Six Sigma seeks to identify and remove the causes of defects and errors in [[manufacturing]] and [[business process]]es.<ref name="proscons" /> It uses a set of [[quality management]] methods, including [[statistics|statistical methods]], and creates a special infrastructure of people within the organization ("Black Belts" etc.) who are experts in these methods.<ref name="proscons" /> Each Six Sigma project carried out within an organization follows a defined sequence of steps and has quantified financial targets (cost reduction or profit increase).<ref name="proscons" />
== Historical overview ==
Six Sigma was originally developed as a set of practices designed to improve manufacturing [[Industrial process|process]]es and eliminate defects, but its application was subsequently extended to other types of business processes as well.<ref name="ssdefnfin">{{cite web | title=Motorola University - What is Six Sigma? | url=http://www.motorola.com/content/0,,3088,00.html | accessmonthday=29 January | accessyear=2006}}</ref> In Six Sigma, a defect is defined as anything that could lead to customer dissatisfaction.<ref name="proscons">{{cite web | author=Jiju Antony | title=Pros and cons of Six Sigma: an academic perspective | url=http://www.onesixsigma.com/node/7630 | accessmonthday=1 May | accessyear=2008 }}</ref>
The particulars of the methodology were first formulated by [[Bill Smith (Motorola engineer)|Bill Smith]] at [[Motorola]] in 1986.<ref name="ssorigin">{{cite web | title=The Inventors of Six Sigma | url=http://www.motorola.com/content/0,,3079,00.html | accessmonthday=29 January | accessyear=2006 }}</ref> Six Sigma was heavily inspired by six preceding decades of quality improvement methodologies such as [[quality control]], [[Total Quality Management|TQM]], and [[Zero Defects]], based on the work of pioneers such as [[Walter A. Shewhart|Shewhart]], [[W. Edwards Deming|Deming]], [[Joseph M. Juran|Juran]], [[Kaoru Ishikawa|Ishikawa]], [[Genichi Taguchi|Taguchi]] and others.
Like its predecessors, Six Sigma asserts that –
*Continuous efforts to achieve stable and predictable process results (i.e. reduce process [[statistical dispersion|variation]]) are of vital importance to business success.
*Manufacturing and business processes have characteristics that can be measured, analyzed, improved and controlled.
*Achieving sustained quality improvement requires commitment from the entire organization, particularly from top-level management.
Features that set Six Sigma apart from previous quality improvement initiatives include –
*A clear focus on achieving measurable and quantifiable financial returns from any Six Sigma project.<ref name="proscons" />
*An increased emphasis on strong and passionate management leadership and support.<ref name="proscons" />
*A special infrastructure of "Champions", "Master Black Belts", "Black Belts" etc. to lead and implement the Six Sigma approach.<ref name="proscons" />
*A clear commitment to making decisions on the basis of verifiable data, rather than assumptions and guesswork.<ref name="proscons" />
The term "Six Sigma" derives from a field of statistics known as [[process capability]] studies. Originally, it referred to the ability of manufacturing processes to produce a very high proportion of output within specification. Processes that operate with "six sigma quality" are assumed to produce defect levels below 3.4 [[defects per million opportunities]] (DPMO).<ref name="ssdefn">{{cite web | title=Motorola University Six Sigma Dictionary | work= | url=http://www.motorola.com/content/0,,3074-5804,00.html#ss | accessmonthday=29 January |accessyear=2006}}</ref> Six Sigma's implicit goal is to improve all processes to that level of quality or better.
Six Sigma is a registered [[service mark]] and trademark of [[Motorola]], Inc.<ref name="ssmoto">{{cite web | title=Motorola Inc. - Motorola University | work= | url=http://www.motorola.com/motorolauniversity | accessmonthday=29 January | accessyear=2006}}</ref> Motorola has reported over US$17 billion in savings<ref name="motsaving">{{cite web | title=About Motorola University | url=http://www.motorola.com/content/0,,3071-5801,00.html | accessmonthday=29 January | accessyear=2006 }}</ref> from Six Sigma [[as of 2006]].
Other early adopters of Six Sigma who achieved well-publicized success include [[Honeywell International]] (previously known as [[Allied Signal]]) and [[General Electric]], where the method was introduced by [[Jack Welch]].<ref>{{cite web | title=Six Sigma: Where is it now? | work= | url=http://scm.ncsu.edu/public/facts/facs030624.html | accessmonthday=22 May | accessyear=2008}}</ref> By the late 1990s, about two-thirds of the [[Fortune 500]] organizations had begun Six Sigma initiatives with the aim of reducing costs and improving quality.<ref name="juran" />
In recent years, Six Sigma has sometimes been combined with [[lean manufacturing]] to yield a methodology named Lean Six Sigma.
<!-- see also [[List of Six Sigma companies]] -->
[[Image:Normal_Distribution_PDF.svg|thumb|400px|left|Graph of the [[normal distribution]], which underlies the statistical assumptions of the Six Sigma model. The Greek letter σ marks the distance on the horizontal axis between the [[arithmetic mean|mean]], µ, and the curve's [[point of inflection]]. The greater this distance is, the greater is the spread of values encountered. For the curve shown in red above, µ = 0 and σ = 1. The other curves illustrate different values of µ and σ.]]
=== Origin and meaning of the term "six sigma process" ===
The following outlines the statistical background of the term Six Sigma.
[[Sigma (letter)|Sigma]] (the lower-case Greek letter σ) is used to represent the [[standard deviation]] (a measure of variation) of a [[statistical population]]. The term "six sigma process" comes from the notion that if one has six standard deviations between the [[mean]] of a process and the nearest specification limit, there will be practically no items that fail to meet the specifications.<ref name=Tennant /> This is based on the calculation method employed in a [[Process capability|process capability study]].
In a capability study, the number of standard deviations between the process mean and the nearest specification limit is given in sigma units. As process standard deviation goes up, or the mean of the process moves away from the center of the tolerance, fewer standard deviations will fit between the mean and the nearest specification limit, decreasing the sigma number.<ref name=Tennant />
Experience has shown that in the long term, processes usually do not perform as well as they do in the short.<ref name=Tennant /> As a result, the number of sigmas that will fit between the process mean and the nearest specification limit is likely to drop over time, compared to an initial short-term study.<ref name=Tennant /> To account for this real-life increase in process variation over time, an empirically-based 1.5 sigma shift is introduced into the calculation.<REF>{{cite book | last = Harry | first = Mikel | authorlink = Mikel J. Harry | title = The Nature of six sigma quality | publisher = Motorola University Press | date = 1988 | location = Rolling Meadows, IL | pages = p. 25 | url = http://www.mikeljharry.com | id = | isbn = 9781569460092 }}</REF><ref name=Tennant /> According to this idea, a process that fits six sigmas between the process mean and the nearest specification limit in a short-term study will in the long term only fit 4.5 sigmas – either because the process mean will move over time, or because the long-term standard deviation of the process will be greater than that observed in the short term, or both.<ref name=Tennant>{{cite book | last = Tennant | first = Geoff | authorlink = | title = SIX SIGMA: SPC and TQM in Manufacturing and Services | publisher = Gower Publishing, Ltd. | date = 2001 | location = | pages = p. 25 | url = http://books.google.com/books?id=O6276jidG3IC&printsec=frontcover#PPA25,M1 | id = | isbn = 0566083744 }}</REF>
Hence the widely accepted definition of a six sigma process is one that produces 3.4 defective parts per million opportunities (DPMO).<ref>{{cite web | url=http://www.isixsigma.com/dictionary/Six_Sigma-85.htm | title=Six Sigma | accessdate=2006-11-26 | last=Tonner |first=Craig | coauthors=Patra, Pradeep | date=2003-09-03 | language=English}}</ref> This is based on the fact that a process that is [[normally distributed]] will have 3.4 parts per million beyond a point that is 4.5 standard deviations above or below the mean (one-sided capability study).<ref name=Tennant /> So the 3.4 DPMO of a "Six Sigma" process in fact corresponds to 4.5 sigmas, namely 6 sigmas minus the 1.5 sigma shift introduced to account for long-term variation.<ref name=Tennant /> This is designed to prevent overestimation of real-life process capability.<ref name=Tennant />
== Methodology ==
Six Sigma has two key methodologies: <ref name="juran">Joseph A. De Feo & William Barnard. ''JURAN Institute's Six Sigma Breakthrough and Beyond - Quality Performance Breakthrough Methods'', Tata McGraw-Hill Publishing Company Limited, 2005. ISBN 0-07-059881-9</ref> DMAIC and DMADV, both inspired by [[W. Edwards Deming|Deming]]'s [[Plan-Do-Check-Act Cycle]]. DMAIC is used to improve an existing business process; DMADV is used to create new product or process designs.<ref name="juran" />
===DMAIC===
The basic methodology consists of the following five steps:
*'''''D'''efine'' process improvement goals that are consistent with customer demands and the enterprise strategy.
*'''''M'''easure'' key aspects of the current process and collect relevant data.
*'''''A'''nalyze'' the data to verify cause-and-effect relationships. Determine what the relationships are, and attempt to ensure that all factors have been considered.
*'''''I'''mprove'' or optimize the process based upon data analysis using techniques like [[Design of Experiments]].
*'''''C'''ontrol'' to ensure that any deviations from target are corrected before they result in defects. Set up pilot runs to establish [[process capability]], move on to production, set up control mechanisms and continuously monitor the process.
===DMADV===
The basic methodology consists of the following five steps:
*'''''D'''efine'' design goals that are consistent with customer demands and the enterprise strategy.
*'''''M'''easure'' and identify CTQs (characteristics that are '''C'''ritical '''T'''o '''Q'''uality), product capabilities, production process capability, and risks.
*'''''A'''nalyze'' to develop and design alternatives, create a high-level design and evaluate design capability to select the best design.
*'''''D'''esign'' details, optimize the design, and plan for design verification. This phase may require simulations.
*'''''V'''erify'' the design, set up pilot runs, implement the production process and hand it over to the process owners.
DMADV is also known as DFSS, an abbreviation of "'''D'''esign '''F'''or '''S'''ix '''S'''igma".<ref name="juran" />
==Implementation roles==
One of the key innovations of Six Sigma is the professionalizing of quality management functions. Prior to Six Sigma, quality management in practice was largely relegated to the production floor and to [[statistician]]s in a separate quality department. Six Sigma borrows [[martial arts]] ranking terminology to define a hierarchy (and career path) that cuts across all business functions and a promotion path straight into the executive suite.
Six Sigma identifies several key roles for its successful implementation.<ref name="mikel">Mikel Harry & Richard Schroeder. ''Six Sigma'', Random House, Inc, 2000. ISBN 0-385-49437-8</ref>
* ''Executive Leadership'' includes the CEO and other members of top management. They are responsible for setting up a vision for Six Sigma implementation. They also empower the other role holders with the freedom and resources to explore new ideas for breakthrough improvements.
* ''Champions'' are responsible for Six Sigma implementation across the organization in an integrated manner. The Executive Leadership draws them from upper management. Champions also act as mentors to Black Belts.
* ''Master Black Belts'', identified by champions, act as in-house coaches on Six Sigma. They devote 100% of their time to Six Sigma. They assist champions and guide Black Belts and Green Belts. Apart from statistical tasks, their time is spent on ensuring consistent application of Six Sigma across various functions and departments.
* ''Black Belts'' operate under Master Black Belts to apply Six Sigma methodology to specific projects. They devote 100% of their time to Six Sigma. They primarily focus on Six Sigma project execution, whereas Champions and Master Black Belts focus on identifying projects/functions for Six Sigma.
* ''Green Belts'' are the employees who take up Six Sigma implementation along with their other job responsibilities. They operate under the guidance of Black Belts and support them in achieving the overall objectives.
* ''Yellow Belts'' are employees who have been trained in Six Sigma techniques as part of a corporate-wide initiative, but have not completed a Six Sigma project and are not expected to actively engage in quality improvement activities.<REF NAME="yellow">{{cite web | title=iSixSigma Dctionary | work= | url=http://www.isixsigma.com/dictionary/Yellow_Belt_-_YB-173.htm | accessmonthday=1 July | accessyear=2007 }}</REF>
== Quality management methods used in Six Sigma ==
Six Sigma makes use of a great number of established quality management methods that are also used outside of Six Sigma. The following table shows an overview of the main methods used.
{{col-begin}}
{{col-2}}
* [[5 Whys]]
* [[Analysis of variance]]
* [[ANOVA Gage R&R]]
* [[Axiomatic design]]
* [[Business process mapping]]
* Catapult exercise on variability
* Cause & effects diagram (also known as fishbone or [[Ishikawa diagram]])
* [[Chi-square test]] of independence and fits
* [[Control chart]]
* [[Correlation]]
* [[Cost-benefit analysis]]
* [[CTQ tree]]
* [[Customer survey]]
* [[Design of experiments]]
{{col-2}}
* [[Failure mode and effects analysis]]
* [[General linear model]]
* [[Histogram]]s
* [[Homogeneity of variance]]
* [[Pareto chart]]
* [[Pick chart]]
* [[Process capability]]
* [[Regression analysis]]
* [[Run chart]]s
* [[SIPOC]] analysis ('''S'''uppliers, '''I'''nputs, '''P'''rocess, '''O'''utputs, '''C'''ustomers)
* Stratification
* [[Taguchi methods]]
* [[Thought process map]]
* [[TRIZ]]
{{col-end}}
==Software used for Six Sigma==
{{main|List of Six Sigma software packages}}
==List of Six Sigma companies==
{{main|List of Six Sigma companies}}
== Criticism ==
===Lack of originality===
Noted quality expert [[Joseph Juran]] has criticized Six Sigma as "a basic version of quality improvement", stating that "[t]here is nothing new there. It includes what we used to call facilitators. They've adopted more flamboyant terms, like belts with different colors. I think that concept has merit to set apart, to create specialists who can be very helpful. Again, that's not a new idea. The [[American Society for Quality]] long ago established certificates, such as for reliability engineers."<REF>{{cite web|url=http://www.qualitydigest.com/aug02/articles/01_article.shtml|title=Juran: A Lifetime of Quality|author=Scott Paton|publisher=Quality Digest|date=2002-08|accessdate=2007-07-01}}</REF>
===Role of consultants===
The use of "Black Belts" as itinerant change agents is controversial as it has created a cottage industry of training and certification. Six Sigma is often oversold by consulting firms that claim expertise in Six Sigma when they in fact only have a rudimentary understanding of the tools and techniques and the Six Sigma approach.<ref name="proscons" />
The expansion of the various "Belts" to include "Green Belts", "Master Black Belts" and "Gold Belts" is commonly seen as a parallel to the various "[[McDojo|belt factories]]" that exist in martial arts.{{Fact|date=May 2008}}
===Studies that indicate negative effects caused by Six Sigma===
A ''[[Fortune (magazine)|Fortune]]'' article stated that "of 58 large companies that have announced Six Sigma programs, 91 percent have trailed the [[S&P 500]] since." The statement is attributed to "an analysis by Charles Holland of consulting firm Qualpro (which espouses a competing quality-improvement process)."<ref>{{cite web|url=http://money.cnn.com/2006/07/10/magazines/fortune/rule4.fortune/index.htm|title=Old rule: be lean and mean|author=Betsy Morris|publisher=Fortune|date=2006-07-11|accessdate=2006-11-26}}</ref> The gist of the article is that Six Sigma is effective at what it is intended to do, but that it is "narrowly designed to fix an existing process" and does not help in "coming up with new products or disruptive technologies." Many of these claims have been argued as being in error or ill-informed.<ref> {{cite web|url=http://online.wsj.com/article/SB116787666577566679.html|title=The 'Six Sigma' Factor for Home Depot|author=KAREN RICHARDSON|publisher=Wall Street Journal Online|date=2007-01-07|accessdate=2007-10-15}}</ref><ref> {{cite web|url=http://www.sbtionline.com/files/Wall_Street_Journal_SBTI_Rebuttal.pdf|title=Wall Street Journal SBTI Rebuttal|author=Joe Ficalora & Joe Costello|publisher=Sigma Breakthrough Technologies, Inc.|accessdate=2007-10-15}}</ref>
A Business Week article says that [[James McNerney]]'s introduction of Six Sigma at [[3M]] may have had the effect of stifling creativity. It cites two [[Wharton School]] professors who say that Six Sigma leads to incremental innovation at the expense of blue-sky work.<ref> {{cite web |url=http://www.businessweek.com/magazine/content/07_24/b4038406.htm?chan=top+news_top+news+index_best+of+bw|title= At 3M, a struggle between efficiency and creativity |title=At 3M, a struggle between efficiency and creativity |accessdate=2007-06-06 |last= Hindo|first= Brian|date= 6|year= 2007|month= June|publisher= Business Week }}</ref>
===Based on arbitrary standards===
While 3.4 defects per million might work well for certain products/processes, it might not be ideal or cost-effective for others. A [[pacemaker]] might need higher standards, for example, whereas a [[direct mail]] advertising campaign might need lower ones. The basis and justification for choosing 6 as the number of standard deviations is not clearly explained.<ref>Criticisms of Six Sigma - http://www.sixsigmaway.org/criticisms-of-six-sigma.html</ref> In addition, the Six Sigma model assumes that the process data always conform to the [[normal distribution]]. The calculation of defect rates for situations where the normal distribution model does not apply is not properly addressed in the current Six Sigma literature.<ref name="proscons" />
Because of its arbitrary nature, the 1.5 sigma shift has been dismissed as "goofy" by the statistician [[Donald J. Wheeler]].<ref>Wheeler, Donald J., Phd, The Six Sigma Practitioner's Guide to Data Analysis, p. 307, http://www.spcpress.com</ref> Its universal applicability is seen as doubtful.<ref name="proscons" />
== Notes ==
{{reflist|2}}
== Literature ==
*{{cite book
| last =Adams
| first =Cary W.
| authorlink =
| coauthors =Gupta, Praveen; Wilson, Charles E.
| title =Six Sigma Deployment
| publisher =Butterworth-Heinemann
| date =2003
| location =Burlington, MA
| pages =
| url =http://books.google.com/books?id=0lY_bhMBzLwC&printsec=frontcover&dq=Adams+Gupta&sig=1KnCHjJxuJyILxW3X3oih3hqg1I
| doi =
| id =
| isbn =0750675233 }}
*{{cite book
| last =Breyfogle
| first =Forrest W. III
| authorlink =
| coauthors =
| title =Implementing Six Sigma: Smarter Solutions Using Statistical Methods
| publisher =John Wiley & Sons
| date =1999
| location =New York, NY
| pages =
| url =http://books.google.com/books?id=leQvoUXM9L0C&printsec=frontcover&dq=Breyfogle+Implementing&sig=1pi8SXcu_AhGdGibrTgIIGy67OM
| doi =
| id =
| isbn =0471265721 }}
*{{cite book
| last =De Feo
| first =Joseph A.
| authorlink =
| coauthors =Barnard, William
| title =JURAN Institute's Six Sigma Breakthrough and Beyond - Quality Performance Breakthrough Methods
| publisher =McGraw-Hill Professional
| date =2005
| location =New York, NY
| pages =
| url =http://books.google.com/books?id=0VHaTb6LJ4QC&printsec=frontcover&dq=%22six+sigma%22&source=gbs_summary_r&cad=0
| doi =
| id =
| isbn =0071422277 }}
*{{cite book
| last =Harry
| first =Mikel J.
| authorlink =
| coauthors =Schroeder, Richard
| title =Six Sigma: The Breakthrough Management Strategy Revolutionizing the World’s Top Corporations
| publisher =Doubleday
| date =1999
| location =New York, NY
| pages =
| url =http://books.google.com/books?id=FOHKAQAACAAJ&dq=Harry+Schroeder+Sigma
| doi =
| id =
| isbn =0385494378 }}
*{{cite book
| last =Keller
| first =Paul A.
| authorlink =
| coauthors =
| title =Six Sigma Deployment: A Guide for Implementing Six Sigma in Your Organization
| publisher =Quality Publishing
| date =2001
| location =Tucson, AZ
| pages =
| url =http://books.google.com/books?id=izjUAAAACAAJ&dq=Keller+Six+Sigma
| doi =
| id =
| isbn =0930011848 }}
*{{cite book
| last =Pande
| first =Peter S.
| authorlink =
| coauthors = Neuman, Robert P.; Cavanagh, Roland R.
| title =The Six Sigma Way: How GE, Motorola, and Other Top Companies are Honing Their Performance
| publisher =McGraw-Hill Professional
| date =2001
| location =New York, NY
| pages =
| url =http://books.google.com/books?id=ybOuvzvcqTAC&pg=PP1&dq=Pande+Six+Sigma+Way&sig=v4iM9qs3FrI-DT5fwtLzk5rmSi4
| doi =
| id =
| isbn =0071358064 }}
*{{cite book
| last =Pyzdek
| first =
| authorlink =
| coauthors =
| title =The Six Sigma Handbook: A Complete Guide for Green Belts, Black Belts and Managers at All Levels
| publisher =McGraw-Hill Professional
| date =2003
| location =New York, NY
| pages =
| url =http://books.google.com/books?id=ly7iBGNVGe8C&printsec=frontcover&dq=Pyzdek+Six+Sigma&sig=6MxUjKInvKvJUeUZEkfD8RnQLcI
| doi =
| id =
| isbn =0071410155 }}
*{{cite book
| last =Snee
| first =Ronald D.
| authorlink =
| coauthors =Hoerl, Roger W.
| title =Leading Six Sigma: A Step-by-Step Guide Based on Experience with GE and Other Six Sigma Companies
| publisher =FT Press
| date =2002
| location =Upper Saddle River, NJ
| pages =
| url =http://books.google.com/books?id=_BRYIS31iwUC&printsec=frontcover&dq=Snee+Hoerl&sig=LFCYGBWi0dxoUdsh8uP5sE6pG7g
| doi =
| id =
| isbn =0130084573 }}
*{{cite book | last = Tennant | first = Geoff | authorlink = | title = SIX SIGMA: SPC and TQM in Manufacturing and Services | publisher = Gower Publishing, Ltd | date = 2001 | location =Aldershot, UK | pages = | url = http://books.google.com/books?id=O6276jidG3IC&printsec=frontcover#PPP1,M1 | id = | isbn = 0566083744 }}
== See also ==
*[[Business process]]
*[[Business process improvement]]
*[[Corrective and preventative action]]
*[[Design for Six Sigma]]
*[[Five nines]]
*[[Kaizen]]
*[[Lean manufacturing]]
*[[Overall equipment effectiveness]]
*[[Process improvement]]
*[[Shingo Prize]]
*[[Statistical process control]]
*[[Systems thinking]]
== External links ==
<!-- These links were chosen after extensive debate. Please do not make changes without discussing it on the talk page first. -->
* [http://www.ge.com/sixsigma/makingcustomers.html GE Six Sigma]
* [http://www.honeywell.com/sixsigma/ Honeywell Six Sigma Plus]
* [http://www.motorola.com/motorolauniversity.jsp Motorola University]
* [http://www.usatoday.com/money/companies/management/2008-01-20-six-sigma_N.htm USA Today Q&A about Six Sigma with Textron CEO Lewis Campbell]
* [http://www.sixsigma.in Six Sigma Guide]
[[Category:Business terms]]
[[Category:Evaluation methods]]
[[Category:General Electric]]
[[Category:Motorola]]
[[Category:Process management]]
[[Category:Production and manufacturing]]
[[Category:Quality]]
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