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Lean Six Sigma Green Belt (LSSGB) Certification Training Course in Dublin, United States

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  • 2 Full Length Lean Six Sigma Green Belt Practice Tests
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  • Industry Based Case Studies
  • Real Life Case Studies And Examples
  • Lean Six Sigma Green Belt Sample Exam papers
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  • 32 Hours Instructor Led Training
  • 12 Hours Prerequisite Training
  • 20 Hours of Project Coaching And/or Guided Self-Study

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Lean Six Sigma Green Belt (LSSGB) Training Course Description in Dublin



 Course Description Images This course will explain the DMAIC methodologies in details and follows a practical approach in knowledge transfer through effective use of casestudies, demos, and group discussions about real-time incidents. As professionals armed with this certificate, you will become enablers in continuous improvement in your organization. This course will train you to apply the DMAIC (Define, Measure, Analyze, Improve, Control) methodology, root cause identification, assess and evaluate performance, and implement solutions.


Take the first step towards exploring an opportunity to become a Lean Six Sigma Green Belt certified professional. Prepare for the Lean Six SigmaGreen Belt Certification exam and fast track your career as an Lean Six Sigma Green Belt Practitioner. Please fill-in the enquiry form on this page or call now on +1 (713)- 287-1213 / (713)-287-1214 or e-mail info (at) icertglobal (dot) com for our training consultant to understand your training and learning
objectives and guide you with an optimum way to achieve your goals.

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Lean Six Sigma Green Belt (LSSGB) Training Course Agenda in Dublin



Course Overview

The Lean Six Sigma Green Belt Certification program is aligned with IASSC . The second stage of stage Lean Six Sigma Master's program is the Lean Six Sigma Green Belt certification. This course will cover the core principles of Lean Six Sigma. You will also learn about the implementation of Lean Six Sigma Green process and principles in maintaining and monitoring the quality of projects under progress and also those deployed. This covers will extensively cover the use of the statistical software tool Minitab for statistical analysis.

Course Agenda

1. COURSE OVERVIEW
1.1. Objectives
1.2. WHAT IS LEAN SIX SIGMA?
1.3. WHAT IS LEAN SIX SIGMA?
1.4. About ICERTGLOBAL'S LSSGB Course
2. Target Audience and Course Prerequisites
2.1. Benefits of LSSGB for Professionals
2.2. Benefits of LSSGB for Organizations
2.3. Lean Six Sigma Green Belt Exam Pattern
2.4. Lean Six Sigma Green Belt Exam
3. LESSON III: INTRODUCTION TO SIX SIGMA
3.1. Agenda
3.2. Basics of Six Sigma
3.3. Process for Six Sigma is DMAIC:
3.4. DMAIC Tools
3.5. What is Six Sigma?
3.6. Six Sigma Level Chart
3.7. Six Sigma --- Introduction to Qualifications
3.8. Why Six Sigma?
3.9. How Does Six Sigma work?
3.10. Six Sigma and Quality
3.11. From Where Does Six Sigma Come?
3.12. History of Six Sigma
3.13. Six Sigma and Business System
3.14. Lesson III: Lean Principles
3.15. Agenda
3.16. What is Lean?
3.17. Why Use Lean?
3.18. History of Lean
3.19. Other Lean Wastes
3.20. Examples of Waste
3.21. Lean Concepts
3.22. Lean Techniques
3.23. Cycle Time Reduction
3.24. The Theory Of Constraints
4. LESSON IV: DEFINE
4.1. Introduction
4.2. Prerequisites of a Six Sigma Project
4.3. Introduction to Define Phase
4.5. What is a Business Process?
4.6. Process Elements
4.7. Steps In Process
4.9. SIPOC Template
4.10. Sample SIPOC
4.11. SIPOC Notes 4.12. Owners and Stakeholders
4.13. Business - Stakeholder Relationship
4.14. Identify Customer
4.15. Internal Customers
4.16. External Customers
4.17. Collect Customer Data
4.18. Ways To Capture Customer Feedback
4.19. Examples How to Collect Customer data 66
4.20. Analyze Customer Requirements
4.21. Analyze Customer Requirements - Pareto Diagram
4.22. Pareto Chart --- An example
4.23. Pareto Chart --- An example
4.24. Pareto Chart --- An example
4.25. Pareto Chart --- Interpretation
4.26. Translate Customer Requirements
4.27. Translate Customer Requirements
4.28. Define CTQ
4.29. VOC - CTQ --- An Example
4.30. VOC - CTQ --- An Example
4.31. Translation Worksheet to Define CTQs
4.32. Translating Customer Requirements - QFD
4.33. QFD-An Automobile Bumper
4.34. QFD-An Automobile Bumper
4.35. QFD-An Automobile Bumper
4.36. QFD-An Automobile Bumper
4.37. QFD-An Automobile Bumper
4.38. Sample QFD Template
4.39. Agenda 84
4.40. Problem Statement
4.41. IS/IS NOT Template
4.42. IS/IS NOT Template - Example
4.43. Project Charter
4.44. Project Objective Criteria
4.45. Project Charter Sections
4.46. Sample Project Charter
4.48. Project Plan
4.49. Project Scope
4.50. Techniques for Identifying Project Scope
4.51. Project Primary Metrics 93
4.52. Secondary Project Metrics
4.53. Project Planning Tools
4.54. Network Diagrams
4.55. Project Planning Tool - Critical Path Method
4.56. Project Planning Tool - PERT
4.57. Project Planning Tool - Gantt Chart
4.58. Project Planning Tool - Work Breakdown Structure
4.59. Project Documentation
4.60. Vehicles for Project Documentation
4.61. Project Risk Management
4.62. Importance of Risk Analysis
4.63. Project Closure
4.64. Team Tools - Multi - voting
4.65. Team Tools - Brainstorming
4.66. Team Tools - Nominal Group Technique
4.67. Affinity Diagrams
4.68. Example: Brainstorming session
4.69. Tree Diagrams
4.70. Prioritization Matrices
4.71. Prioritization Matrices - Example
4.72. Process Decision Program Chart (PDPC)
4.73. Process Decision Program Chart (PDPC)
4.74. Activity Network Diagram
4.75. Activity Network Diagram
4.76. Defect Per Unit (DPU)
4.77. Rolled Throughput Yield (RTY)
4.78. Rolled Throughput Yield --- An Example
4.79. Rolled Throughput Yield --- An Example
4.80. Cost of Poor Quality (COPQ)
4.81. Defect Per Million Opportunities
4.82. Process Capability Indices
4.83. Process Capability Indices - Example
4.84. Process Capability Indices - Example
4.85. Failure Modes and Effects Analysis
4.86. Risk Priority Number (RPN) & Scale Criteria
4.87. Risk Priority Number (RPN) & Scale Criteria
4.88. Occurrence
4.89. Detection
4.90. Example Of FMEA & RPN
4.91. Team Stages
4.92. Team Tools - Multi - voting
4.93. Group Challenges
4.94. Six Sigma Teams and Other Responsibilities
4.95. Six Sigma Teams and Other Responsibilities
4.96. Communication Technique
4.97. Communication Techniques
5. LESSON V: MEASURE
5.1. Agenda
5.2. Introduction to Measure Phase
5.3. Process Modeling
5.4. Common Symbols Of Flowchart:
5.5. Flowchart
5.6. Written Procedures
5.7. Work Instruction
5.8. Work Instruction - Example
5.9. Cause and Effect Matrix
5.10. Cause and Effect Matrix Template
5.12. Cause and Effect Matrix: How to update
5.13. Cause and Effect Diagram
5.14. Cause and Effect Diagram - Example
5.15. Analytical Statistics: Introduction to Hypothesis
5.16. Analytical Studies
5.17. Analytical Statistics
5.18. Enumerative Statistics
5.19. Central Limit Theorem
5.20. Central Limit Theorem: Graphical
5.21. Central Limit Theorem and Sampling Distribution of the Mean 1
5.22. Basic Probability Concepts
5.23. Basic Properties of Probabilities
5.24. Probabilities: Example
5.25. Basic Properties of Probabilities, cont..
5.26. Various Probability Rule
5.27. Addition Rule
5.28. Addition Rule, cont:
5.29. Multiplication Rule
5.30. Multiplication Rule, cont:
5.31. Multiplication Rule, cont:
5.32. Types of Data
5.33. Types of Data
5.34. Measurement Scales
5.35. Data Collection Methods
5.36. Techniques for Assuring Data Accuracy
5.37. Simple Random Sampling versus Stratified Sampling
5.38. Descriptive Statistics-1 1
5.39. Descriptive Statistics - I, cont:
5.40. Descriptive Statistics - 2
5.41. Variance
5.42. Standard Deviation
5.43. Descriptive Statistics - 3
5.44. Descriptive Statistics - 3, cont:
5.45. Descriptive Statistics - 4
5.46. Descriptive Statistics - 4, cont:
5.47. Descriptive Statistics - 5
5.48. Graphical Method
5.49. Box and Whisker Plots
5.50. Run Charts
5.51. Scatter Plots
5.52. Pareto Charts
5.53. Normal Probability Plots
5.54. Normal Probability Plots, cont.:
5.55. Discrete Probability Distribution
5.56. Binomial Distribution
5.57. Binomial Distribution, cont..
5.58. Binomial Distribution - Concepts
5.59. Defectives and Defects
5.60. Poisson Distribution
5.61. Poisson Distribution - Characteristics
5.62. Poisson Distribution - An Example
5.63. Continuous Distribution - Normal Distribution
5.64. Normal Distribution - Characteristics
5.65. Normal Distribution - Characteristics, cont..
5.66. Long Term v/s Short Term
5.67. Z-table Usage
5.68. Z-table Usage, cont..
5.69. Normal Distribution, cont..
5.70. Chi Square Distribution 5.71. Chi Square Test - Example
5.72. Chi Square Test - Example, cont:
5.73. t - Distribution
5.74. f - Distribution: Characteristics
5.75. Measurement System Analysis
5.76. Objective of Measurement System Analysis
5.77. Measurement System Analysis
5.78. Sources of Variation
5.79. Gage Repeatability and Reproducibility
5.80. Component of GRR Study
5.81. Key Concepts
5.82. Measurement Resolution
5.83. Repeatability and Reproducibility
5.84. Repeatability and Reproducibility
5.85. Data Collection
5.86. GAGE RR Template
5.87. GAGE RR Results Summary
5.88. GAGE RR Interpretation 235
5.89. Process Stability Studies 236
5.90. Process Stability Studies 237
5.91. Process Stability Studies 238
5.92. Process Capability Studies - 1
5.93. Process Capability Studies - 2
5.94. Process Capability Studies - 3
5.96. Process Performances vs. Specification
5.97. Process Performance Indices
5.98. Process Performance Indices - contd
5.99. Process Performance Indices - contd
5.100. Short-term vs. Long-term capability
5.101. Assumptions and Convention - Process Variations
5.102. Stability, Capability, Spread and Defects Summary
5.103. Cpk versus Cp Comparison
5.104. Understanding Process Variations - Complaint Resolution Time Hours
5.105. Understanding Process Variations
5.106. Effect of Mean Shift
5.107. Process Capability for attributes data
5.108. Understanding Process Variations - Quality Control Department Example
5.109. Understanding Process Variations - Quality Control Department Example, contd..
6. LESSON VI: ANALYZE
6.1. Agenda
6.2. Causes for Variations in X
6.3. Causes of Variation - Examples
6.4. Analysis, cont:
6.5. Create Multi-Vari Chart
6.6. Create Multi-Vari Chart
6.7. Create Multi-Vari
6.8. Correlation Levels
6.9. Regression
6.10. Key Concepts
6.11. Simple Linear Regression (SLR)
6.12. Least Squares Method in SLR (Simple Linear Regression)
6.13. Simple Linear Regression - Example
6.14. SLR Using Excel,
6.15. SLR Using Excel, cont..
6.16. SLR Using Excel
6.17. Multiple Linear Regression
6.18. Key Concepts
6.19. Key Concepts, cont:
6.20. Statistical and Practical Significance of Hypothesis Test
6.21. Hypothesis
6.22. Type I Error
6.23. Type II Error
6.24. Type I and Type II Errors - Key Concepts
6.25. Power of Test
6.26. Determinants of Sample Size - Continuous Data
6.27. Standard Sample Size Formula - Continuous Data
6.28. Standard Sample Size Formula - Discrete Data
6.29. Hypothesis Testing Roadmap
6.30. Hypothesis Test for Means (Theoretical)
6.31. Hypothesis Test for Variance and Proportions
6.32. Comparison of Means of Two Processes
6.33. Paired Comparison Hypothesis Test for Means (Theoretical)
6.34. Paired-Comparison Hypothesis Test for Variance - F-Test example
6.35. Hypothesis Test for Equality of Variance - F-Test Example
6.36. Hypothesis Tests (Practical)
6.37. F-Test
6.38. F-Test
6.39. F-Test Assumptions
6.40. F-Test Interpretations
6.41. Hypothesis Tests (Practical)
6.42. 2-Sample t-Test
6.43. 2-Sample Independent t-Test Assumptions
6.44. 2-Sample Independent t-Test
6.46. Paired t-Test
6.47. ANOVA (Comparison of More Than Two Means)
6.48. ANOVA (Comparison of More Than Two Means)
6.49. ANOVA - Example
6.50. Using Minitab for ANOVA
6.51. Using Minitab for ANOVA, cont..
6.52. ANOVA using Excel
6.53. Interpreting Minitab Results
6.54. Chi - Square Test
6.55. Hypothesis Tests -- Summary points
7. LESSON VII: IMPROVE
7.1. Agenda
7.3. Introduction to Improve and Control
7.5. Piloting
7.6. Piloting
7.7. Piloting
7.8. Piloting
7.9. Design of Experiments - An Introduction 323
7.10. Basic Terms - 1
7.11. Basic Terms - 2
7.12. Basic Terms - 3
7.13. DOE - A Plastic Molding Example
7.14. Components of DOE in the Molding Example
7.15. Full Factorial Experiment -Example
7.16. Full Factorial Experiment -Example
7.17. Main Effect
7.18. Interaction Effect
7.19. Design of Experiments - Runs
7.20. Design of Experiments --- Which Experimental Method?
7.21. Objectives & Benefits of SPC 3
8. LESSON VIII: CONTROL
8.1. Basics of Control Charts
8.2. Setting the Control Limits
8.3. Purpose of Control Limits
8.4. Most Common Rules for Control Chart Analysis
8.5. Choosing an Appropriate Control Chart -Continuous Data
8.6. Choosing an Appropriate Control Chart - Discrete Data
8.7. Xbar Chart Principles
8.8. Defining the Xbar-R UCL and LCL
8.9. Xbar-R and Subgroup Data - Example
8.10. Constructing/Analyzing an Xbar-R Chart Graph -Example
8.11. I-MR Chart Principles
8.12. I-MR and Individual Data - Example
8.13. Constructing an I-MR Chart Graph -Example
8.14. Control Charts for Attribute Data
8.15. np-chart Principles
8.16. np-charts and Uniform Subgroup Size -Example
8.17. Constructing/Analyzing an np-chart Graph -Example
8.18. p-chart Principles
8.19. p-charts and Varying Subgroup Size -Example
8.20. Constructing/Analyzing a p-chart Graph -Example
8.21. c-Chart Principles
8.22. c-Chart Subgroups - Example
8.23. Constructing/Analyzing a p-chart Graph -Example
8.24. u-Chart Principles
8.25. u-Chart Subgroups
8.26. Constructing a u-Chart Graph
8.27. New Process Capability
8.28. Measurement System Reanalysis
8.29. What is a Control Plan?
8.30. Control Plan Strategy
8.31. What to Control?
8.32. Identifying KPIVs
8.33. Control Plan Tools
8.34. Developing a Control Plan
8.35. Choosing the Right Level of Control
8.36. Example of Transactional Control Plan
8.37. Process Step
8.38. Characteristic/Parameter
8.39. Specification/Requirement
8.40. Sample Size - Frequency - Who Measures
8.41. Where Recorded?
8.42. Decision Rule/Corrective Action
8.43. Reference Number
8.44. Sample Manufacturing Control Plan
8.45. Summary - Control Phase Key Objectives and Tasks




Lean Six Sigma Green Belt (LSSGB) Exam and Certification in Dublin



There are no prerequisites for attending the course or to sit for the IASSC Certified Green Belt

For more about this please visit the FAQ's page http://www.iassc.org/faqs/

This course is best suited to:

  • Quality System Managers
  • Quality Engineers
  • Quality Supervisors
  • Quality Analysts, and Managers
  • Quality Auditors



Lean Six Sigma Green Belt (LSSGB) Certification Training FAQs in Dublin



What is Six Sigma?
Six Sigma is a rigorous and proven business methodology that uses data and statistical analysis to improve business performance. With the goal of increasing profits by eliminating mistakes, waste, and rework, Six Sigma provides a means to identify and prevent process variation-or defects-to improve predictability and success of business processes.

Why Six Sigma Certification?
Six Sigma certification confirms a level of training, practice, and capability with respect to specific competencies. Though requirements for each Six Sigma certification level are different, each requires training, and each participant, called a "Belt", is required to have a leadership-approved project prior to Six Sigma certification training.

What are the Six Sigma Certifications?
Six Sigma Green Belts have received two days of training on the Six Sigma road map and essential elements of statistical methodologies supporting Six Sigma projects. Green Belts allocate up to 50% of their time on Six Sigma projects, and Black Belts assist them with projects as needed.
Six Sigma Black Belts are technical leaders who have received four days of training focusing on the Six Sigma road map and extensive statistical methodologies. Black Belts normally dedicate up to 75% of their time to Six Sigma projects, and they assist Green Belts as needed. Green Belt certification is required for Black Belt certification eligibility.
Six Sigma Master Black Belts represent the highest level of technical and organizational proficiency. They have received six days of training on the Six Sigma methodology, and they've learned the skills and tools required to teach Six Sigma philosophies and implement Six Sigma within an organization. Master Black Belts lead all levels of Six Sigma projects, and they help Black Belts apply methodology when necessary. Their jobs are completely devoted to Six Sigma. Black Belt certification is necessary for Master Black Belt certification eligibility.



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