Six Sigma Black Belt: DFSS Methodologies, Design for X, and Robust Designs

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  • 9 videos | 1h 32m 20s
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Rating 4.4 of 51 users Rating 4.4 of 51 users (51)
Design for Six Sigma (DFSS) is the methodology associated with the design of a process, product, or service, which results in Six Sigma output that satisfies both the external customer and internal business requirements. DFSS is an innovative strategy for the design or redesign of a process, product, or service from the ground up. This course examines several of the common methodologies utilized in Design for Six Sigma (DFSS), beginning with the two common counterparts to the DMAIC methodology: DMADV and DMADOV. Design for X is emerging as an important knowledge-based multifunctional approach to design that is aimed at particular prioritized process constraints, such as cost, manufacturability, testability, or maintainability. This course explores several constraints in more detail, offering strategies for achieving designs concentrated on the chosen criteria. Another recently developed approach, robust design, uses parameter and tolerance control to produce designs which will be reliable during manufacturing and while in use. This course will address the basic aims of parameter control, tolerance design, and statistical tolerancing. This course is aligned with the ASQ Certified Six Sigma Black Belt certification exam and is designed to assist learners as part of their exam preparation. It builds on foundational knowledge that is taught in SkillSoft's ASQ-aligned Green Belt curriculum.

WHAT YOU WILL LEARN

  • Discover the key concepts covered in this course
    Determine whether or not dfss is appropriate for a given situation, and why
    match new-product terms to examples
    Identify tools and approaches that are included in dfss methodology
    match the steps of the dmadov methodology with the questions asked and activities performed in them
    Identify key requirements of a dfx initiative
    identify the definition of design for x (dfx)
  • Match design for manufacturability and producibility strategies to examples of their practical implementation
    Recognize how to set and use target cost when designing for cost
    recognize valid circumstances for readjusting a target cost
    Match dfx characteristics to associated strategies for design
    Identify the goals of robust design
    Use tolerance design calculations to determine tolerance specifications in a given scenario, and distinguish between worst-case tolerancing and statistical tolerancing approaches

IN THIS COURSE

  • 1m 38s
    After completing this video, you will be able to discover the key concepts that will be covered in this course. FREE ACCESS
  • 8m 29s
    After completing this video, you will be able to match new-product terms to examples and determine whether or not DFSS is appropriate for a given situation, and why FREE ACCESS
  • Locked
    3.  DFSS Methodologies
    10m 28s
    After completing this video, you will be able to identify tools and approaches that are included in DFSS methodology and match the steps of the DMADOV methodology with the questions asked and activities performed in them FREE ACCESS
  • Locked
    4.  Basics of Design for X (DFX)
    12m 3s
    After completing this video, you will be able to identify the definition of Design for X (DFX) and identify key requirements of a DFX initiative FREE ACCESS
  • Locked
    5.  Basics and Guidelines of DFMP
    9m 40s
    After completing this video, you will be able to match design for manufacturability and producibility strategies to examples of their practical implementation FREE ACCESS
  • Locked
    6.  Principles of Design for Cost
    11m 12s
    After completing this video, you will be able to recognize how to set and use target cost when designing for cost and recognize valid circumstances for readjusting a target cost FREE ACCESS
  • Locked
    7.  Design for Testability, Maintainability & Other Xs
    11m 15s
    After completing this video, you will be able to match DFX characteristics to associated strategies for design FREE ACCESS
  • Locked
    8.  Robust Design Elements
    13m 22s
    After completing this video, you will be able to identify the goals of robust design FREE ACCESS
  • Locked
    9.  Tolerance Design & Statistical Tolerancing
    14m 14s
    After completing this video, you will be able to use tolerance design calculations to determine tolerance specifications in a given scenario and distinguish between worst-case tolerancing and statistical tolerancing approaches FREE ACCESS

EARN A DIGITAL BADGE WHEN YOU COMPLETE THIS COURSE

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