Six Sigma Black Belt


Course Number: SIX-106
Duration: 8 days (52 hours)
Format: Live, hands-on

Six Sigma Black Belt Certification Training Overview

This live, instructor-led Lean Six Sigma Black Belt training course teaches attendees how to lead successful improvement teams and achieve strategic objectives in any function or department in their organization. Participants learn how to extend the depth of methods across the various phases of the DMAIC (Define, Measure, Analyze, Improve, and Control) roadmap. This course also prepares learners for the Certified Six Sigma Black Belt Exam.

Note: This Black Belt course is conducted over two 4-day sessions (8 full training days in all) of training with a 3-4 week break between sessions.

Location and Pricing

Accelebrate offers instructor-led enterprise training for groups of 3 or more online or at your site. Most Accelebrate classes can be flexibly scheduled for your group, including delivery in half-day segments across a week or set of weeks. To receive a customized proposal and price quote for private corporate training on-site or online, please contact us.

In addition, some courses are available as live, instructor-led training from one of our partners.

Objectives

  • Understanding the Central Limit Theorem
  • Overcome unusual measurement system challenges
  • Apply transformation techniques to data for accurate analysis of capability as well as how to evaluate single-sided specifications
  • Determine which factors provide the best response prediction
  • Work with non-linear relationships
  • Evaluate and select the dominant factors to predict the response
  • Understand the critical aspects of designing effective and efficient experiments
  • Incorporate and evaluate sources of uncontrolled variability during the experiment
  • Include and evaluate the impact of a noise factor within an experiment
  • Design, analyze, and interpret Factorial Design
  • Understand the pros and cons of fractionating a design
  • Evaluate the effects of varying levels of multiple factors on a response
  • Establish the optimum process settings for multiple factors to maintain goals/targets for multiple performance measures simultaneously
  • Optimize processes while they are in use
  • Transform two styles of qualitative response data
  • Understand specialized Control Chart methods for attribute data and sampling methods for continuous data
  • Change how processes function for optimal performance
  • Provide closure to the project

Prerequisites

All students should have some basic statistics knowledge and have taken our Six Sigma Green Belt course or have the equivalent knowledge.

Outline

Expand All | Collapse All

Introduction
Central Limit Theorem
  • Estimating the mean
  • The Central Limit Theorem and its applicability to sampling theory
Advanced Measurement Systems Analysis
  • Methods for measuring process performance
Advanced Capability Studies
  • The conditions where a standard Capability Analysis does not apply
  • Data transformation techniques
  • for accurate analysis of capability
  • Evaluating single-sided specifications
Multiple Regression
  • Situations where a process performance measure is affected by more than one continuous factor
  • Multiple regression techniques to determine the best prediction of the response
  • Non-linear relationships
Nested ANOVA
  • Occurrences where process performance is affected by more than one discrete factor
  • Evaluating and selecting the dominant factors in combination with one another to predict the response
DOE Planning
  • The critical aspects of designing effective experiments
  • Uncontrolled variability during the experiment
Randomized Block Design
  • Unavoidable yet predictable noise factor in experiments
  • The impact of a noise factor within an experiment.
Full Factorial Experiments
  • Full Factorial design: the methods for designing, analyzing, and interpreting these designs
Fractional Factorial Designs
  • Knowing factors to investigate with Full Factorial methods
  • Fractionating a design and the DOE roadmap
General Factorial Designs
  • Methods for designing and analyzing
  • The pros and cons of designed experiments
Sample Size Calculation
  • The relationship between the factor(s) and the response
  • How the sample size can impact confidence in the decision based on the data
Optimization Designs
  • Optimizing the performance of the process.
  • Techniques for determining the optimum 
Multiple Response Optimization
  • Optimizing a single process performance measure
  • Establishing the optimum process settings for multiple factors
Evolutionary Operations (EvOp)
  • Optimizing processes
  • Apply for radical change where slow, steady improvement is desired and supported
DOE with Qualitative Responses
  • Overcoming challenges for statistically evaluating the significance of factors on the performance
Intermediate SPC
  • The most common and most versatile Control Chart
Change Management
  • Dealing with resistance at various levels within the organization
  • The common signs of resistance
  • Methods to aid in overcoming these forces
Control Methods
  • Instilling appropriate and effective methods of controlling the process
Conclusion

Training Materials

All attendees receive comprehensive courseware.

Software Requirements

Each student should have Minitab software installed (or use the free 30-day trial).



Learn faster

Our live, instructor-led lectures are far more effective than pre-recorded classes

Satisfaction guarantee

If your team is not 100% satisfied with your training, we do what's necessary to make it right

Learn online from anywhere

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Multiple Payment Options

We accept check, ACH/EFT, major credit cards, and most purchase orders



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