Lean Six Sigma Green Belt (LSSGB)

Course Description: Lean Six Sigma Green Belt (LSSGB)

The Lean Six Sigma Green Belt (LSSGB™) course focuses on providing students with an understanding of the various Six Sigma and Lean tools and techniques useful in improving the production process and minimizing defects in the final product with a further focus on the practical implementation of these tool and techniques in the organization.

The course includes an opportunity to obtain the Lean Six Sigma Green Belt (LSSGB) Certification Exam. The sessions taught are theoretical and practical.

The course is taught in distance learning modality and face-to-face and remote training actions can also be carried out on demand .

Addressed to

Employees and organizations that require a standardized approach to problem solving in order to continually improve Quality Management.

Course content

Introduction to Six Sigma

• History of Quality (Deming, Juran, JIT, Ishikawa, Taguchi, etc.)
• Evolution of Six Sigma
• Defining Six Sigma – philosophy and objectives
• Overview of Six Sigma DMAIC process

Stakeholders & Setting up a Six Sigma Project

• Identifying and Documenting stakeholder requirements
  to. Identifying stakeholders and customers
  b. Data collection and analysis
  c. Determining critical requirements
• Project Selection Criteria
  to. Identifying performance metrics
  b. Using Financial criteria to evaluate project benefits
  c. Maximizing project benefits for the organization
• 3. Project Planning
  a. Creating Project Charter
  b. Charter Negotiation
• 4. Managing Team Dynamics
  a. Initiating teams
  b. Stages of team evolution
  c. Maslow's hierarchy of needs
  d. Motivation Techniques
  and. Conflict Resolution Techniques
  F. Management/Leadership styles
  g. Roles played by people in a project
• 5. Important project management & planning tools

Six Sigma Methodology – Define

• Inputs – Need for six sigma project, Executive management sponsorship, core team identified
• Tools
  a. Organization hierarchy
  b. High level process maps
  c. High level Pareto charts
  d. Idea generation and categorization tools
• Outputs
  a. Project charter
  b. Established metrics
  c. Problem statement
  d. Roles & responsibilities

Six Sigma Methodology – Measurement

• Objectives of Measurement Phase
• Inputs – the outputs of the Define phase
• Tools
  to. Data collection tools and techniques
  b. Measurement scales
  c. Validation techniques (Gauge R & R)
  d. Statistical distributions
  e. Data mining
  f. Run charts
  g. Process map
  h. Stakeholder tools
  i. Process costs
• Outputs
  a. Well-defined processes
  b. Baseline process capability
  c. Process parameters affecting CTQs
  d. Cost of poor quality (COPQ)
  e. Measurement system
  

Six Sigma Methodology – Analyze

• Objectives of Analyze Phase
• Inputs – outputs of the Measure phase
• Tools
  a. Ishikawa diagram
  b. Failure mode and effects analysis
  c. Hypothesis testing
  d. Process capability study
• Outputs
  to. Important causes of defects
  b. Special and common causes of variation
  c. DPMO and sigma level
  

Six Sigma Methodology – Improve

• Objectives of Improve Phase
• Inputs – outputs of the Analyze phase
• Tools
  a. Returns on investment
  b. Solution design matrix
  c. Design of experiment
  d. Taguchi robustness concepts
  and. Response surface methodology
  F. Project planning and management tools
  g. Prototypes
• Outputs
  to. Cost/benefit for different solution
  b. Selection of solutions for implementation
  c. Implementation plan
  

Six Sigma Methodology – Control

• Objectives of Control Phase
• Inputs – outputs of the Improve phase
• Tools
  a. Control plan
  b. Statistical process control
  c. Lean enterprise
  d. 5S
  e. Kaizen
  f. Kanban
  g. Total productive maintenance
  h. Measurement system reanalysis
• Outputs
  a. Implemented solutions
  b. Revised measurement system
  c. Control plan for sustaining benefits
  d. Improves process capability
  e. Lessons learned

Lean

• A Value Stream Map
• Lean is Speed
• Total Supply Chain
• Lean Six Sigma Logistics

Case Study

• Case Study Part 1
• Case Study Part 2
• Case Study Part 3

Prerequisites

There are no formal prerequisites for this certification.