4th International Conference on Multidisciplinary Research & Practice (4ICMRP-2017)
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Six Sigma Methods and Formulas for Successful Quality Management Suresh .V. Menon Grey Campus Edutech Private Limited, Hyderabad, Telangana, India Abstract: This paper is about the five phases of Six Sigma which are Define, Measure, Analyze, Improve& Control. The methods used in each phase are discussed in detail and the various tests used in Analyze Phase of Six Sigma are given; Six Sigma can be implemented in an organization by using the methods and formulas used in each phase combined with the help of Statistical Software Minitab 18. Keywords: DMAIC, 3.4 Defects, USL, LSL, Standard Deviation, Mean, Anova, Hypothetical Tests
S
ix Sigma is basically the application of Statistical formulas and Methods to eliminate defects, variation in a product or a process. For example if you want to find the average height of male population in India, you cannot bring the entire population of more than 2 billion into one room and measure their height for a scenario like this we take samples that is we pick up sample(people) from each state and use statistical formulas to draw the inference about the average height of male population in a population which is more than 2 billion. One more example would be say a company manufactures pistons used in motor cycles the customer demand is that the piston should not a diameter more than 9 cm and less than 5 cm anything manufactured outside this limits is said to be a variation and the six sigma consultant should confirm that the pistons are manufactured within the said limits else if there is variation in the range then the company is not operating at 6 sigma level it is operating at a very low level. A company is operating at six sigma level implies that there are only 3.4 defects per million opportunities for example an airline company operating at six sigma level means that it loses only 3.4 baggage’s per million of the passenger it handles. Below is Shown the Six Sigma Table and a graph explaining the meaning of various levels of Six Sigma. Sigma Level
Defect Rate
Yield Percentage
2σ
308,770 dpmo (Defects Per Million Opportunities)
69.10000 %
3σ
66,811 dpmo
93.330000 %
4σ
6,210 dpmo
99.38000 %
5σ
233 dpmo
99.97700 %
6σ
3.44dpmo
99.99966 %
Six Sigma is Denoted by the Greek alphabet σ which is shown in the table above and is called as Standard deviation. The father of Six Sigma is Bill Smith who coined the term Six Sigma and implemented it in Motorola in the 1980’s. Six Sigma is implemented in Five Phases which are Define, Measure, Analyze, Improve, Control and we will discuss each phases in brief and the various methods used in Six Sigma. DEFINE The objectives within the Define Phase which is first phase in DMAIC framework of Six Sigma are:Define the Project Charter
Assemble and train the team. Project charters the charter documents the why, how, who and when of a project include the following elements
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Define scope, objectives, and schedule Define the Process (top-level) and its stake holders Select team members Obtain Authorization from Sponsor
Problem Statement Project objective or purpose, including the business need addressed Scope Deliverables Sponsor and stakeholder groups Team members Project schedule (using GANTT or PERT as an attachment) Other resources required
ISBN: 978-93-5288-448-3