Elizabeth A. Cudney (Maryville University, St. Louis, USA), Tina Kanti Agustiady (BASF Chemical, Quincy, Florida, USA)
Design for Six Sigma
A Practical Approach through Innovation
Elizabeth A. Cudney (Maryville University, St. Louis, USA), Tina Kanti Agustiady (BASF Chemical, Quincy, Florida, USA)
Design for Six Sigma
A Practical Approach through Innovation
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Design for Six Sigma (DFSS) is in demand for new processes and companies looking to innovate. This book will explain how the DFSS methodology begins with defining the problem or opportunity which then leads to two paths: 1) If it has never been done before, design it right the first time using DFSS. 2) If it already exists and needs to be fixed,
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Design for Six Sigma (DFSS) is in demand for new processes and companies looking to innovate. This book will explain how the DFSS methodology begins with defining the problem or opportunity which then leads to two paths: 1) If it has never been done before, design it right the first time using DFSS. 2) If it already exists and needs to be fixed,
Produktdetails
- Produktdetails
- Continuous Improvement Series
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 357
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 234mm x 156mm x 20mm
- Gewicht: 582g
- ISBN-13: 9780367782894
- ISBN-10: 0367782898
- Artikelnr.: 61210084
- Continuous Improvement Series
- Verlag: Taylor & Francis Ltd
- Seitenzahl: 357
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 234mm x 156mm x 20mm
- Gewicht: 582g
- ISBN-13: 9780367782894
- ISBN-10: 0367782898
- Artikelnr.: 61210084
Elizabeth Cudney, Ph.D. is an Associate Professor in the Engineering Management and Systems Engineering Department at Missouri University of Science and Technology. She received her B.S. in Industrial Engineering from North Carolina State University, Master of Engineering in Mechanical Engineering and Master of Business Administration from the University of Hartford, and her doctorate in Engineering Management from the University of Missouri - Rolla. In 2014, Dr. Cudney was elected as an ASEM Fellow. In 2013, Dr. Cudney was elected as an ASQ Fellow. In 2010, Dr. Cudney was inducted into the International Academy for Quality. She received the 2008 ASQ A.V. Feigenbaum Medal and the 2006 SME Outstanding Young Manufacturing Engineering Award. She has published four books and over 40 journal papers. She is an ASQ Certified Quality Engineer, Manager of Quality/Operational Excellence, and Certified Six Sigma Black Belt. She is a member of the ASEE, ASEM, ASQ, IIE, and the Japan Quality Engineering Society (JQES). Tina Agustiady is a certified Six Sigma Master Black Belt and Continuous Improvement Leader at BASF. Tina serves as a strategic change agent, infusing the use of Lean Six Sigma throughout the organization as a key member of the Site Leadership team. Tina improves cost, quality, and delivery at BASF through her use of Lean and Six Sigma tools while demonstrating the improvements through a simplification process. Tina has led many Kaizen, 5s, and Root Cause Analysis events through her career in the healthcare, food, and chemical industries. Agustiady received a BS in industrial and manufacturing systems engineering from Ohio University. She earned her Black Belt and Master Black Belt certifications at Clemson University. Agustiady is also the Institute of Industrial Engineers (IIE) Lean Division board director and chairman for the IIE annual conferences and Lean Six Sigma conferences. She is an editor for the International Journal of Six Sigma and Competitive Advantage.
Introduction. Design for Six Sigma Overview. History of Design for Six
Sigma (relationship to Six Sigma). Design for Six Sigma Methodology
(Roadmap). Design for Six Sigma Culture and Organizational Strategies.
Identify. Project Charter (project description, goals, requirements,
expectations, boundaries). Balanced Scorecard. Benchmarking. Project
Management. Assess Risk. Invent/Innovate. Gathering the Voice of the
Customer (survey design). Quality Function Deployment. Kano Model. TRIZ.
Axiomatic Design. Assess Risk. Develop. Lean Product Development. Design
for x Methods. Concept Generation. Pugh Concept Selection Matrix. Modeling
of Technology. Design Failure Modes and Effects Analysis (talk about
mistake proofing here too). Assess Risk. Optimize. Design of Experiments.
Modeling of Robustness and Tunability (add ideal and transfer functions
here too). System Additive Model. Process Failure Modes and Effects
Analysis (add mistake proofing here too). Reliability Testing. Response
Surface Methods. Measurement Systems Analysis. Assess Risk. Verify.
Modeling of Variational Sensitivities (across the integrated technology
platform). System Variance Model. Robustness Additive Models. Capability
Analysis. Statistical Process Control. Future and Challenges of Design for
Six Sigma. Assess Risk. Case Studies. Product DFSS Case Study. Healthcare
DFSS Case Study. Service DFSS Case Study
Sigma (relationship to Six Sigma). Design for Six Sigma Methodology
(Roadmap). Design for Six Sigma Culture and Organizational Strategies.
Identify. Project Charter (project description, goals, requirements,
expectations, boundaries). Balanced Scorecard. Benchmarking. Project
Management. Assess Risk. Invent/Innovate. Gathering the Voice of the
Customer (survey design). Quality Function Deployment. Kano Model. TRIZ.
Axiomatic Design. Assess Risk. Develop. Lean Product Development. Design
for x Methods. Concept Generation. Pugh Concept Selection Matrix. Modeling
of Technology. Design Failure Modes and Effects Analysis (talk about
mistake proofing here too). Assess Risk. Optimize. Design of Experiments.
Modeling of Robustness and Tunability (add ideal and transfer functions
here too). System Additive Model. Process Failure Modes and Effects
Analysis (add mistake proofing here too). Reliability Testing. Response
Surface Methods. Measurement Systems Analysis. Assess Risk. Verify.
Modeling of Variational Sensitivities (across the integrated technology
platform). System Variance Model. Robustness Additive Models. Capability
Analysis. Statistical Process Control. Future and Challenges of Design for
Six Sigma. Assess Risk. Case Studies. Product DFSS Case Study. Healthcare
DFSS Case Study. Service DFSS Case Study
Introduction. Design for Six Sigma Overview. History of Design for Six
Sigma (relationship to Six Sigma). Design for Six Sigma Methodology
(Roadmap). Design for Six Sigma Culture and Organizational Strategies.
Identify. Project Charter (project description, goals, requirements,
expectations, boundaries). Balanced Scorecard. Benchmarking. Project
Management. Assess Risk. Invent/Innovate. Gathering the Voice of the
Customer (survey design). Quality Function Deployment. Kano Model. TRIZ.
Axiomatic Design. Assess Risk. Develop. Lean Product Development. Design
for x Methods. Concept Generation. Pugh Concept Selection Matrix. Modeling
of Technology. Design Failure Modes and Effects Analysis (talk about
mistake proofing here too). Assess Risk. Optimize. Design of Experiments.
Modeling of Robustness and Tunability (add ideal and transfer functions
here too). System Additive Model. Process Failure Modes and Effects
Analysis (add mistake proofing here too). Reliability Testing. Response
Surface Methods. Measurement Systems Analysis. Assess Risk. Verify.
Modeling of Variational Sensitivities (across the integrated technology
platform). System Variance Model. Robustness Additive Models. Capability
Analysis. Statistical Process Control. Future and Challenges of Design for
Six Sigma. Assess Risk. Case Studies. Product DFSS Case Study. Healthcare
DFSS Case Study. Service DFSS Case Study
Sigma (relationship to Six Sigma). Design for Six Sigma Methodology
(Roadmap). Design for Six Sigma Culture and Organizational Strategies.
Identify. Project Charter (project description, goals, requirements,
expectations, boundaries). Balanced Scorecard. Benchmarking. Project
Management. Assess Risk. Invent/Innovate. Gathering the Voice of the
Customer (survey design). Quality Function Deployment. Kano Model. TRIZ.
Axiomatic Design. Assess Risk. Develop. Lean Product Development. Design
for x Methods. Concept Generation. Pugh Concept Selection Matrix. Modeling
of Technology. Design Failure Modes and Effects Analysis (talk about
mistake proofing here too). Assess Risk. Optimize. Design of Experiments.
Modeling of Robustness and Tunability (add ideal and transfer functions
here too). System Additive Model. Process Failure Modes and Effects
Analysis (add mistake proofing here too). Reliability Testing. Response
Surface Methods. Measurement Systems Analysis. Assess Risk. Verify.
Modeling of Variational Sensitivities (across the integrated technology
platform). System Variance Model. Robustness Additive Models. Capability
Analysis. Statistical Process Control. Future and Challenges of Design for
Six Sigma. Assess Risk. Case Studies. Product DFSS Case Study. Healthcare
DFSS Case Study. Service DFSS Case Study