1. Part 01 of 09
Overview to Lean Six Sigma
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Release date: 8th Feb, 2011 Version: 1.0
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LASSIB Team
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
3. Enterprise-wide View
History of Value and Value and Integration of lean Business Six sigma and lean
continuous foundations of six foundations of and six sigma processes and applications
improvement sigma lean •The relationship systems •How these tools are
•The origins of •The value of six •The value of lean, its between lean and six •The relationship among applied to processes in
continuous sigma, its philosophy, history, sigma. various business all types of enterprises:
improvement and its philosophy, history, an and goals. processes manufacturing, service,
impact on other d goals. (design, production, pu transactional, product
improvement models. rchasing, accounting, sa and process
les, etc.) and the impact design, innovation, etc.
these relationships can
have on business
systems.
3
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
4. The origins of continuous improvement and its impact on other improvement
HISTORY OF CONTINUOUS IMPROVEMENT
models
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Release date: 8th Feb, 2011 Version: 1.0
5. History of continuous Improvement
WESTERN MODELS EASTERN MODELS
• W Edwards • 7 QC Tools
Deming • New 7 Tools
• Joseph M Juran • Quality Circles
• Phil Crosby • Kaizen
• Walter Shewhart • Poka Yoke
• Value Engineering •5S
• IDEAL Model • TPM
• Just-In Time
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6. W Edwards Deming – The Deming Wheel
Source:
http://www.aacc.org/SiteCollectionDocuments
/hall_of_fame/Deming_W_Edwards_200.gif
Source: http://upload.wikimedia.org/wikipedia/commons/7/7c/PDCA-Cycle.png
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7. W Edwards Deming – Deming’s 14 principles
Deming offered fourteen key principles for management for transforming business effectiveness. The
points were first presented in his book Out of the Crisis.
1. Create constancy of purpose toward improvement of product and service, with the aim to become
competitive and stay in business, and to provide jobs.
2. Adopt the new philosophy. We are in a new economic age. Western management must awaken to
the challenge, must learn their responsibilities, and take on leadership for change.
3. Cease dependence on inspection to achieve quality. Eliminate the need for inspection on a mass
basis by building quality into the product in the first place.
4. End the practice of awarding business on the basis of price tag. Instead, minimize total cost. Move
towards a single supplier for any one item, on a long-term relationship of loyalty and trust.
5. Improve constantly and forever the system of production and service, to improve quality and
productivity, and thus constantly decrease cost.
6. Institute training on the job.
7. Institute leadership. The aim of supervision should be to help people and machines and gadgets to
do a better job. Supervision of management is in need of overhaul, as well as supervision of
production workers.
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Release date: 8th Feb, 2011 Version: 1.0
8. W Edwards Deming – Deming’s 14 principles
8. Drive out fear, so that everyone may work effectively for the company.
9. Break down barriers between departments. People in research, design, sales, and production must work
as a team, to foresee problems of production and in use that may be encountered with the product or
service.
10. Eliminate slogans, exhortations, and targets for the work force asking for zero defects and new levels of
productivity. Such exhortations only create adversarial relationships, as the bulk of the causes of low
quality and low productivity belong to the system and thus lie beyond the power of the work force.
11. Eliminate work standards (quotas) on the factory floor. Substitute leadership. Eliminate management by
objective. Eliminate management by numbers, numerical goals. Substitute workmanship.
12. Remove barriers that rob the hourly worker of his right to pride of workmanship. The responsibility of
supervisors must be changed from sheer numbers to quality. Remove barriers that rob people in
management and in engineering of their right to pride of workmanship. This means, inter
alia, abolishment of the annual or merit rating and of management by objective.
13. Institute a vigorous program of education and self-improvement.
14. Put everyone in the company to work to accomplish the transformation. The transformation is everyone's
work. "Massive training is required to instill the courage to break with tradition. Every activity and every
job is a part of the process."
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9. W Edwards Deming – Seven Deadly Diseases
The Seven Deadly Diseases (also known as the "Seven Wastes"):
1. Lack of constancy of purpose
2. Emphasis on short-term profits
3. Evaluation by performance, merit rating, or annual review of performance
4. Mobility of management
5. Running a company on visible figures alone
6. Excessive medical costs
7. Excessive costs of warranty, fueled by lawyers who work for contingency fees
A Lesser Category of Obstacles:
Neglecting long-range planning
Relying on technology to solve problems
•
Seeking examples to follow rather than developing solutions
•
Excuses, such as "Our problems are different”
•
•
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10. Joseph M Juran – The Pareto Principle
It was in 1941 that Juran The Pareto principle of Time vs. Results
discovered the work of
Vilfredo Pareto
•
20% of
Juran expanded the Pareto results
principle applying it to
quality issues (for
•
80% of time
example, 80% of a problem expended
is caused by 20% of the
Source:
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causes)
e_thumb/en/joseph_m_juran?pad=1&ma
80% of
xheight=110&mode=fillcropmid&maxwi
results
dth=110
This is also known as "the
vital few and the trivial
many". In later years Juran
•
20% of time
has preferred "the vital few
and the useful many" to
signal that the remaining
80% of the causes should not
be totally ignored
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11. Joseph M Juran – The Management Thoery
When Juran began his career in the 1920s the principal focus in quality management was on the quality of
the end, or finished, product
•
The tools then used were from the Bell system of acceptance sampling, inspection plans, and control
charts. The ideas of Frederick Winslow Taylor dominated
•
Juran is widely credited for adding the human dimension to quality management. He pushed for the
education and training of managers
•
For Juran, human relations problems were the ones to isolate. Resistance to change—or, in his
terms, cultural resistance—was the root cause of quality issues. Juran credits Margaret Mead's book
Cultural Patterns and Technical Change for illuminating the core problem in reforming business quality.
•
He wrote Managerial Breakthrough, which was published in 1964, outlining the issue
Juran's vision of quality management extended well outside the walls of the factory to encompass non-
manufacturing processes, especially those that might be thought of as service related. For example, in an
interview published in 1997 he observed:
•
“The key issues facing managers in sales are no different than those faced by managers in other
disciplines. Sales managers say they face problems such as "It takes us too long or we need to reduce
the error rate." They want to know, "How do customers perceive us?" These issues are no different
than those facing managers trying to improve in other fields. The systematic approaches to
improvement are identical…
There should be no reason our familiar principles of quality and process engineering would not work
in the sales process…”
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12. Joseph M Juran – The Quality Trilogy
QUALITY PLANNING QUALITY CONTROL (DURING OPERATIONS)
Sporadic
zone
40 -
(as a % of operating budget)
Cost of poor quality
Original zone of
quality control
20 - Chronic waste
(an opportunity
Savings
for improvement)
New zone of
quality control
QUALITY IMPROVEMENT
0 Time
Lessons learnt
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
13. Philip Crosby
Philip Crosby started the management consulting company Philip Crosby
Association, Inc
•
This consulting group provided educational courses in quality
management both at their headquarters in Winter Park, Florida, and at
eight foreign locations. In 1979 Crosby published his first business book,
•
Quality Is Free. This book became popular at the time because of the crisis
in North American quality
During the late 1970s and into the 1980s North American manufacturers
were losing market share to Japanese products largely due to the
superiority of quality of the Japanese products.
•
Crosby's response to the quality crisis was the principle of "doing it right
the first time" (DIRFT). He would also include four major principles:
•
– the definition of quality is conformance to requirements
– the system of quality is prevention
– the performance standard is zero defects
– the measurement of quality is the price of nonconformance
Source:
http://www.wppl.org/wphistory/phili
pcrosby/PhilipCrosby.jpg
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Release date: 8th Feb, 2011 Version: 1.0
14. Philip Crosby’s Quality Improvement Program
1. Management is Committed to Quality 8. Train supervisors in quality
2. Create Quality Improvement Teams improvement
3. Measure processes to determine 9. Hold zero defects days
current and potential quality issues 10. Encourage employees to create their
4. Calculate Cost of (poor) Quality own quality improvement goals
5. Raise Quality Awareness of all 11. Encourage employee communication
Employees with management about obstacles to
6. Take Actions to Correct Quality quality (Error-Cause Removal)
Issues 12. Recognise participants’ effort
7. Monitor progress of quality 13. Create quality councils
improvement – establish a zero 14. Do it all over again – quality
defects committee improvement does not end
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Release date: 8th Feb, 2011 Version: 1.0
15. Philip Crosby’s Stages
Uncertainty Awakening Enlightenment Wisdom Certainty
• COPQ : 20% • COPQ : 18% • COPQ : 12% • COPQ : 8% • COPQ : 2.5%
• Blame QD • QM begins • CA • DP is routine • QI is normal
Crosby's name is best known in relation to concepts of “Do it Right, First time” and
“Zero Defect”.
COPQ - Cost of Poor Quality
Quality is defined as
conformance to requirements,
QD – Quality Deployment
not as “goodness” or “elegance”. QM –Quality Management
CA – Cost Acceptance
DP – Defect Prevention
QI – Quality Improvement
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Release date: 8th Feb, 2011 Version: 1.0
16. Walter Shewhart
Statistical Process Control (SPC) is an
effective method of monitoring a process
through the use of control charts.
•
Control charts enable the use of objective
criteria for distinguishing background
variation from events of significance based
•
on statistical techniques. Much of its power
lies in the ability to monitor both process
center and its variation about that center.
By collecting data from samples at various
points within the process, variations in the
Source:
process that may affect the quality of the end
http://www.firstmetre.co.uk/image.php?
•
product or service can be detected and
w=250&h=334&f=/UserFiles/Image/Oc
tober+Images/Shewhart-c1926.jpg
corrected, thus reducing waste as well as the
likelihood that problems will be passed on to
the customer.
Because of its emphasis on early detection
and prevention of problems, SPC has a
distinct advantage over quality
•
methods, such as inspection, that apply
resources to detecting and correcting
problems in the end product or service.
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
17. Walter Shewhart – Father of Statistical Process Control
Statistical Process Control is the application of statistical techniques in the
Control of processes
Define
Problem
Implement Define
Solution Process
Analyze List Possible
Data Reasons
Collect Data
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Release date: 8th Feb, 2011 Version: 1.0
18. Value Engineering
Value Engineering objective:
To develop the best solution to meet the project objective
Step 1: Information gathering
Define project objective
Develop terms of reference
Identify assumptions and facts
Gather information (physical parameters, cost, schedule)
Step 2:Function analysis
Analyze functions required to deliver project objectives
Describe each identified functions
Classify functions: Basic functions
Step 3:Value analysis
Creatively identify options and alternatives to perform functions
Research options
Identify cost and cost benefits Idea roots identified for
Identify risks (barriers and uncertainties) further analysis
Alternative solutions to
perform functions
Step 4:Option evaluation
Evaluate idea roots developed in Step 3 and identify those for further analysis
Compare solutions and screen out unfeasible / least valuable alternatives
Identify solutions for further analysis (iterate) Screen out unsuitable
options
Step 5:Judgment
Use judgment to identify the best value solution
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Release date: 8th Feb, 2011 Version: 1.0
19. IDEAL Model
Analyze and Learning
validate
Implement Propose future
solution actions
Acting
Build Set Stimulus for
change
Charter
Refine solution
infrastructure sponsorship Content
Initiation
Characterize
Pilot / test solution desired & current
state
Develop
Create solutions
recommendations
Diagnosis
Plan actions Set priorities
Develop approach
Establishing
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Release date: 8th Feb, 2011 Version: 1.0
20. Seven QC tools
Check sheets
Process behavior / Control charts
Pareto diagram
Graphs
Fish bone diagram
Histograms
Scatter diagrams
Source: http://media.texample.net/tikz/examples/PNG/pie-chart.png
Source: http://farm3.static.flickr.com/2671/4235318918_15e2a8feaf.jpg
Source: http://upload.wikimedia.org/wikipedia/commons/c/c7/Histograma_pisuaktom.JPG
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Release date: 8th Feb, 2011 Version: 1.0
21. Release date: 8th Feb, 2011 Version: 1.0
Matrix diagrams
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Arrow diagrams
New Seven QC Tools
Matrix data analysis
Affinity Diagrams
program chart
Process decision
Relationship Diagrams
Tree Diagrams
Source:
Affinity Diagram: http://farm4.static.flickr.com/3136/2583400109_7c57ff718c_o.png
Relationship Diagram: http://upload.wikimedia.org/wikipedia/commons/b/b7/Typical_dependency_relations_between_AIS_services.JPG
Tree Diagram: http://farm1.static.flickr.com/14/15276524_45307f082d.jpg
Process decision program chart: http://1.bp.blogspot.com/_5ieXw28ZUpg/SULVbS2LvxI/AAAAAAAAAwI/SPYcwibZkfE/s1600-h/obap2.PNG
Matrix data analysis: http://upload.wikimedia.org/wikipedia/commons/7/76/Folio_Plot_BCG_Matrix_Example.png
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Matrix diagrams: http://farm3.static.flickr.com/2182/2040911590_f6f946e72a_o.png
Arrow diagrams: http://upload.wikimedia.org/wikipedia/commons/a/af/Linalg_map_change_basis_3.png
22. Quality Circle Concept
S.No. Particulars What they mean?
1 Concept The main objective of Quality Circles is “self” and mutual
development, cohesive team work and to be engaged in continuous
improvement activities, thus improving their quality of work life
2 Identification of problem QC Members with the help of Round Robin Method, try to identify
their own day to day work related problems
3 Problem selection Identified problems are segregated into three categories based on
difficulty of their solution
4 Meetings QCs have periodic meetings to discuss, analyze and find solutions to
the problems on a pre-fixed schedule
5 Various problem solving steps QCs follow a 12 step methodology, starting from identification of
problems to solution, implementation, follow up and review.
6 Approval of project Project has to be approved by the Steering Committee or the
executives nominated by the Steering Committee.
7 Gains The aim of QC is to “develop people”. In other words, self and mutual
development through QC activities. Hence, the focus is not on gains in
terms of money
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23. Kaizen
• Japanese term that means continuous improvement, taken from words:
– ‘kai' which means continuous
– 'zen' which means improvement
• Kaizen, or rapid improvement processes, are the building block of all Lean
production methods. Kaizen philosophy implies that all, incremental
changes routinely applied and sustained over a long period result in
significant improvements
• The kaizen strategy aims to involve workers from multiple functions and
levels in the organization in working together to address a problem or
improve a particular process
• The team uses analytical techniques, such as Value Stream Mapping, to
quickly identify opportunities to eliminate waste in a targeted process.
The team works to rapidly implement chosen improvements
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24. Kaizen – Continuous improvement
Do it again
Document
Celebrate
reality
Identify Start
Standardize here
waste
Measure Eliminate
results waste
Verify Reality For counter
changes check measures
Make
changes
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Release date: 8th Feb, 2011 Version: 1.0
25. Poka Yoke / Mistake Proofing - Overview
• A technique for eliminating errors
• Making it impossible to make mistakes
Elimination
Best
Eliminate the possibility of error
Replacement
–
Use the highest level
Substitute a more reliable process
possible for the
Facilitation
–
Better
application.
Make work simpler to perform
Detection
–
Detect the error at the defect source
Good Mitigation
–
– Minimize the effect
It is good to do it right the first time; it is even better to make it impossible to do it wrong the first time.
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26. Poka Yoke / Mistake Proofing - Examples
• While closing a word document, one is asked
whether to save the file or not
• Spelling check option in a word document
Source: http://upload.wikimedia.org/wikipedia/commons/0/04/DIN_lang_-_Letter_Window.JPG
• In three pin plugs / socket, the earth pin / socket
is larger in length and diameter so that one
doesn’t mistakenly insert it otherwise
• The window in a envelop ensures that right
content reaches the right person
• The fuse box in a house is meant to prevent fire in
electrical systems
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27. 5S – A Framework to create and maintain your workplace
•Means SORT -
SEITON •Means SHINE -
SEIKETSU •Means SUSTAIN – Self
Organization Cleanliness discipline
•Distinguish between •Means SET IN ORDER •Cleaning and looking •Means STANDARDIZE •Stick to the
what is and is not - Orderliness for ways to keep it – Adherence rules, scrupulously
needed •A place for everything clean •Clearly define tasks
and everything in its and procedures
SEIRI SEISO SHITSUKE
place
Implementing the 5S is often the first step in Lean Transformation
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28. TPM - Total Productive Maintenance
• TPM (Total Productive Maintenance) seeks to engage all levels and
functions in an organization in maximizing the overall effectiveness of the
process
• TPM's goal is the total elimination of all losses
• TPM focuses on preventing:
– Breakdowns (preventive maintenance)
– “Mistake-proofing" the equipment (or poka-yoke) to prevent
breakdowns
– Make maintenance easier (corrective maintenance)
– Designing and installing equipment that needs little or no
maintenance (maintenance prevention)
– Quickly repairing equipment after breakdowns occur (breakdown
maintenance).
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29. Release date: 8th Feb, 2011
Autonomous Maintenance
Version: 1.0
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Focus Improvement
Planned Maintenance
Quality Maintenance
TPM - Total Productive Maintenance
8 Pillars of TPM
Initial Flow Control
Education & Training
Safety, Health &Environment
TPM in office
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30. Just in Time (JIT)
• Just In Time (JIT) is a manufacturing philosophy which leads to
"Producing the necessary units, in the necessary quantities at the
necessary time with the required quality”
• It is an approach to achieving excellence in the reduction or total
elimination of waste (Non-Value Added Activities)
• Examples of waste according to JIT:
– Overproduction
– Unneeded Inventory
– Defective Products
– Transport and Waiting Time
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Release date: 8th Feb, 2011 Version: 1.0
31. The value of six sigma, its philosophy, history, and goals
VALUE AND FOUNDATION OF SIX SIGMA
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32. Evolution of Quality
LEAN ENTERPRISE
ROBUST PROCESS BUSINESS INTELLIGENCE
DESIGN
DOE
BUSINESS RESULTS
ECONOMETRICS
BUSINESS PROCESS MANAGEMENT
DMAIC
RCM
DFSS
TPM
TEAM BUILDING
5S FMEA
SPC
CONCURRENT ENGINEERING
ZD
QFD
VE
TQM
DF(X)
KAIZEN CQI PROBLEM SOLVING
STRATEGY
7 QCT PDCA
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33. INDUSTRY SNIPPETS
'No matter which level of Six Sigma training the respondents completed, their average salaries
are higher than the respondents who didn't complete any Six Sigma training.’
'During the past 10 years Six Sigma has become one of the most widely practiced process
improvement methodologies in both service and manufacturing industries.’
'GE produces annual benefits of over $2.5 billion across the organization from Six Sigma.’
'The savings as a percentage of revenue for a company can vary from 1.2% to 4.5%.’
'Lean Six Sigma techniques implemented throughout the Army continue to prove successful, and
leaders anticipate reaching a $2 billion-savings mark this year.’
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34. What is Lean Six Sigma?
A Set of Proven Tools and A set of proven tools and technique
Techniques used to achieve used to solve business problems
Business growth and goals Control
Define
Improve
A framework that builds A mechanics to develop
Measure
a Customer centric approach leadership talent within
with a focus on delivering an organization
business results Analyze
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35. Lean Six Sigma – Why is it so successful?
Highest
Leaders
Lean and Six Sigma (6σ)
Skill
Medium
Managers
Larger % of Skill
Lower
employees in
need of skills to
Associates
Skill
deliver
customer value
and Business
Value
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36. Historical Perspective
1979:
Motorola 1995: Jack 2000: GE
Starts Six Welch Saves ~$2
Sigma Initiates Six Billion
Initiative Sigma in GE Annually
1986: 1998: Allied
Motorola Signal Saves
Saves ~$16 ~$1.2
Billion Billion
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37. Mean vs. Variation
Archer A Archer B
Mean of Archer A is zero and that of Archer B is significantly higher. But which one would you choose?
One that had inconsistent performance (Archer A, high variation) or one that was very consistent (Archer B, very low variation)
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38. Statistical Perspective
Mean = 20
(Lower Specification)
σ = 0.5 (Upper Specification)
σ σ
A defect is any value that falls outside Customer Specifications
23
17
20
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39. Quantitative Perspective
99% Right (3.8 Sigma) 99.99966% Right (6 Sigma)
No electricity for 7 hours per month No electricity for 1 hour every 34 years
5,000 incorrect operations per week 1.7 incorrect operations per week
20,000 wrong prescriptions per year 68 wrong prescriptions per year
Defects per Million
σ
Opportunities
1 697,672.15
2 308,770.21
3 66,810.63
4 6,209.70
5 232.67
6 3.40
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40. Quantitative Perspective
Airline fatality rate 0.52 PPM
Sigma (σ)
World Class, Six Sigma 3.4 PPM
1:1,000,000
Five Sigma 233 PPM
Motorola 1990
Four Sigma 6,209 PPM
Hospital fatality rate due to mistakes
Restaurant bills
1:100 Doctor prescriptions
Payroll processing
Airline baggage handling
Three Sigma 66,810 PPM
Two Sigma
308,770 PPM
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41. Customers Perspective
Six Sigma Starts and Ends with Customers
What is my
customers view
of the process?
Are my What do the
customers customers expect
referring and out of the
buying again? process?
CUSTOMERS
How do my
Is my customer
customers
satisfaction
measure the
increasing?
process?
What is my
customers
definition of a
defect?
41
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42. Operational Perspective
Control
Define
Improve
Measure
Analyze
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43. The value of lean, its philosophy, history, and goals
VALUE AND FOUNDATION OF LEAN
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44. LEAN History
Toyota
Production System
People
People
• Single Piece Flow • Automation
Just-in-Time
• Pull Production • Built-In Quality
People
Jidoka
• TAKT Time Production • Stopping at Abnormalities
Heijunka
• Level Loading
• Sequencing
• Stability
Some Key Lean Concepts developed at Toyota
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45. LEAN Thinking
A principle driven, tool based philosophy that focuses on eliminating waste so that
all activities/steps add value from the customers perspective.
Lean Thinking is all about continuous waste elimination !
Imagine Office Processes with:
• Higher Customer Satisfaction
• Shorter Lead Time
• Higher Flexibility
• Higher Quality
• Lower Costs
• Higher Employee Satisfaction
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
46. LEAN Explained
A strategy, philosophy, process and leadership approach for operating in a
superior way. Results include:
•
– Reduced cycle times (product development and production)
– Increased quality
– Reduced costs and inventory
– Increased capacity potential
– Improved customer service
– High levels of worker involvement, ownership and commitment
– Improved financial returns
Lean concepts apply across all processes and industries
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
47. LEAN Explained
Earlier: Price = Cost + Profit Now: Profit = Price - Cost
Increase Profit by Price increase Increase Profit by cost reduction
Price to sell
1.5
1.5
Some profit Bigger profit
Bigger profit
Price to sell
1 1
Cost of production
Some profit
0.5 0.5
Cost of production
0 0
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
48. Where are We going?
Advanced tools
Tool
• Creating Continuous Flow
• Pull production
Basic tools Challenge
• More waste reduction
Tool • Real continuous flow
• Value Stream • Flexible workforce
Mapping, other lean • Less variance
tools, etc. • Less waste
Old situation
Results
• Reduction of waste
Issues • Learned to ‘see the flow’
• Inventory • Couple of improvements
• Waiting
• Defects Remaining Issues
•… • No real continuous flow
• Still significant amount of
No flow in the value waste.
stream.
Processes full of waste
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
49. Lean Toolkit
Level 1 Level 2
Reduce Variability, Control the Process
Expose the Waste • Value Stream Mapping
• Standardized Work
• Intro to Continuous Flow
• 5S • Intro to Pull Production
• MUDA
Tool Sophistication
• Mistake proofing
• Intro to Value Stream Mapping
• Visual Management
Time / Cultural Maturity
Applying the right tools at the right stage
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
50. Lean Tools Overview
A number of Lean Tools and Techniques are available
Bring Organization &
5S Framework
Cleanliness to work
area
Understand Value Value Stream Mapping
Tools and Techniques
Implement pull-based flow Kanban, Just-in Time
Action
Reconfigure work areas U-Shaped Cells
Institute continuous improvement philosophy Kaizen Events
Appropriate Tools and Techniques are to be used depending on the need
50
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
51. The relationship between LEAN and Six Sigma
INTEGRATION OF LEAN AND SIX SIGMA
51
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
52. LEAN vs. Six Sigma
Methodology
Strengths
Define Measure Analyze Improve Control
Lean Six Sigma
Six Sigma • VOC is Powerful • Confirms Data • Data Driven • Few Tools to • Few Tools or
Quality Analysis Create Change in Direction
Critical X’s
• Value Stream • Standard Work • Observation and • Many Tools for • Communicative
Lean
Mapping . . . & Target Intuition Based Driving Change • Centered on
Boundary less & Sheets . . . Analysis . . . Stable, Repeatable
• Mixed Model
Multi-Generational Assumes Data PQ, PR, TAKT Process
Plan, Kan Ban, Visual
is Good Time
Management • Automation
Apply Any Tool from your Quality Tool Box
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
53. When do I use LEAN?
Six Sigma Action
Hybrid
Project Workout
Effort
Effort
Effort
Time Time Time
Average ~ 4 Months Average ~ 1½ Months
Average ~ 4 Months
Lean For Quick Fixes….Six Sigma For Complex Processes !!
53
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
54. LEAN vs. Six Sigma
LEAN
Simple / Wing
Spans breadth Spans Complex and
Six Sigma
X X
depth
to Wing focused
Lean: Strengthens journey to Excellence
Lean Lean Six Sigma Six Sigma/Lean
Helps identify steps that Identifies problems in the Improves the capability of steps Improving the capability can
do not add value and flow that do add value eliminate additional steps
provides tools to
eliminate them
Lean success
Six Sigma
•Energizing
•Team work,
factors /
Values
•Empowering
•Boundary less / Open mindset
Impact •Passion for improvement
•Intuition / Action
•Customer focus
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
55. LEAN or Six Sigma – When to use?
Just Do it Lean
Preference I Preference III
Ask an Expert Six Sigma
Preference II Preference IV
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
56. The relationship among various business processes
(design, production, purchasing, accounting, sales, etc.) and the impact these
relationships can have on business systems
BUSINESS PROCESSES AND SYSTEMS
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
57. Release date: 8th Feb, 2011 Version: 1.0
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
KINDUZ Business Excellence
Source: http://www.kinduz.com/index.php/research/kinduz-excellence-framework
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For more information, kindly visit: http://www.kinduz.com
59. European Foundation for Quality – EFQM Excellence model
Enablers Results
People People results
Key Performance Results
Leadership
Policy & Customer
Processes
Strategy results
Partnerships
Society results
& resources
Innovation and Learning
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
60. How these tools are applied to processes in all types of enterprises:
manufacturing, service, transactional, product and process
design, innovation, etc.
SIX SIGMA AND LEAN APPLICATIONS
60
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
61. Value Stream Mapping – A Petrol Station / Gas Station Example
Helpers /
Customers Enters Customer Starts
Customer Fills
Petrol Station Vehicle
Tank
Customer Carefully
Non value added service
Customer Finds
Customer Stops Exits, avoiding
Pump with
Vehicle other Standing
smallest Cue
Traffic
Value added service
Customer Waits in Customer Makes
Customer Exits
a Cue Payment
Goal is to eliminate or make non-value added activities more efficient
61
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
62. Value Stream Mapping – Original layout
Existing
Dock
Lay down
Material Lay down areas:
• Deliver to receiving dock
area #1
Receiving
• Queue for receipt
inspection Lay down
area #2 Stock
• Waiting to move to inspection
Lay down room
• Delivered to inspection
area #5
Receiving
Storage
• Queue for inspection
Lay down
area #4
• Waiting to move to stock room
• Queue for put away
Lay down
area #3
Lay down
area #7
Lay down
area #6
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
63. Value Stream mapping – proposed layout
Existing Dock
New Deck
Roller belt
Receiving
Stock room
Bulk incoming material
New Inspection
(hold for inspection)
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
64. Case Study: Reduction in the cycle time of issuance of
corporate loans
About the Organization Serviced:
• The Company Serviced is one of the Largest Banking
Organizations in the Kingdom of Saudi Arabia with annual Issue: Getting buy-in for validating data from all the
turnover of 3 Billion $ managers was a big challenge as it would directly impact
• The Bank is catering to the needs of Individuals, Corporate’s their role & reputation of that particular department
and Trade Finance activities across the country with
extensive branch network Resolution: The key was to get the Buy – in from the Senior
most manager and ask him to communicate to the whole
team about the importance and gravity of issue. This
Objective of the Initiative / Business Case: involved extensive people management and Perception
• The process of issuing/ rejecting Corporate Loan application Management
process was consuming an average of 73 days considering all
the regions and types of credit applications which was
leading to customer dissatisfaction and loss of revenue
Issue: Getting the required data from various systems being
used and generating reports on a weekly basis and
Results Delivered: validating the reports of each department with the
• Our Consultant helped reduce the average time consumed respective Manger
from 73 days to 27days considering all regions and types of
credit applications processed involving 14 Departments in 6 Resolution: This was achieved with couple of software
months analysts collating the data with the Black belt, then the
• Helped streamline various sub processes to be aligned with reports were circulated to the respective managers for
the core process them to audit and get their acceptance after which they
• Held extensive training/ mentoring for all the team members were circulated to the EVP
to achieve the desired results
64
Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
65. Reduction in the Cycle time of Account Opening process
About the Organization Serviced:
Issue: Getting buy-in for changing the systems and work
• The Company Serviced is one of the Largest Banking
scheduling from batch processing to lean processing to
Organizations in the Kingdom of Saudi Arabia with annual
optimize load balancing across the back office
turnover of 3 Billion $
• The Bank is catering to the needs of Individuals, Corporate’s
and Trade Finance activities across the country with Resolution: The issue was solved by conducting a pilot with
extensive branch network the authorization of the concerned manager and validating
the results after which Lean cells were created as an
intermediate step to reduce the cycle time until new
Objective of the Initiative / Business Case: systems are stabilized
• The process of opening an account was consuming an
average of 7 days for the customer signature to be uploaded
Issue: Making a business case to change the systems in sync
into the master database only after which customer will be
with the information architecture of the bank which would
able to use all the services. This was leading to customer
result in investment s and results in significant
dissatisfaction
productivity improvement
Resolution: The process was taken up with the IT team and a
Results Delivered: strong
• Our Consultant helped reduce the average time consumed
from 7 days to 1 day considering applications from all
regions
• Helped optimize various back office processes to be aligned
with the core process
• Held extensive training/ mentoring for all the team members
to achieve the desired results
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
66. The responsibilities of executive leaders and how they affect the deployment
of six sigma in terms of providing resources, managing
change, communicating ideas, etc.
ENTERPRISE LEADERSHIP RESPONSIBILITIES
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Release date: 8th Feb, 2011 Version: 1.0
67. Leadership
Enterprise leadership Organizational Change management Six sigma projects and Six sigma roles and
responsibilities roadblocks •Use of various techniques for kaizen events responsibilities
•The responsibilities of •The impact an organization’s facilitating and managing •How projects and kaizen •Describe the roles and
executive leaders and how culture and inherent organizational change. events are selected, when to responsibilities of six sigma
they affect the deployment of structure can have on the use six sigma instead of other participants: black belt,
six sigma in terms of success of six sigma, and how problem-solving master black belt, green belt,
providing resources, deployment failure can result approaches, and the champion, process owners,
managing change, from the lack of importance of aligning their and project sponsors.
communicating ideas, etc. resources, management objectives with
support, etc.; identify and organizational goals.
apply various techniques to
overcome these barriers.
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
68. Candidate Selection
Drive Mindset
Willing to APPLY what was covered in class Open and flexible mindset
• •
Drive the solution For both class and project work wants to
• •
Is able to have a focused schedule and keep stay focused on the process and not on
• •
project on time blaming people! “Blame the process not
•
Resolves barriers or gets help resolving the people”
barriers quickly
•
Does not let ‘artificial’ organizational
boundaries get in the way
•
• Communication • Readiness
• High team involvement, collaborative • Open to constructive criticism
• Able to communicate progress frequently • Able to ask the fundamental or tough
questions
• Able to lead a group effort (flip charts &
• Candidate prepared for class and
post-its) completes tools per schedule
• Mentoring time taken seriously • Basic MS Office Computer Skills
• Basic statistics knowledge
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0
69. LEAN Six Sigma drive benefits
• Financial • Cultural:
• Companies embracing Lean • Deliberate and proven-
Six Sigma report payback approach to work
(inclusive of all costs) within • Returns dependent on:
12 months • Selecting and engaging
• Ultimate ROI (Return on the right people
Investment) in range of • Providing the right
25-50 months or over 2-4 Resources
years • Executing the right
projects
• Fully engaging company
leadership
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Overview to Lean Six Sigma | LASSIB | http://www.lassib.org/
Release date: 8th Feb, 2011 Version: 1.0