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"Quality planning has been a fundamental industrial practice for several decades, yet there are few comprehensive quality planning textbooks dedicated to the understanding of this subject at the undergraduate and graduate levels. In the quality field, professionals often consider Toyota as a role model for best practices. While one can learn Toyota quality for its principles, its specific practices are not necessarily applicable for every situation. In The Toyota Way to Service Excellence, Dr. Liker and Ross stated, "the Toyota Way training was designed to teach principles rather than specific methodology" (p.32). Similarly, this book focuses on the fundamental principles of quality planning, and extrapolates on their applications in various industries throughout each chapter. For current and future quality professionals, you can start learning these principles, with supporting application examples in this book, and later apply them towards your unique applications. Like one of my students said, "What I enjoyed most about this course was taking the information learned in this course and being able to utilize it within the industry that I currently work in.""--
This book introduces Software Quality Assurance (SQA) and provides an overview of standards used to implement SQA. It defines ways to assess the effectiveness of how one approaches software quality across key industry sectors such as telecommunications, transport, defense, and aerospace. Includes supplementary website with an instructor’s guide and solutions Applies IEEE software standards as well as the Capability Maturity Model Integration for Development (CMMI) Illustrates the application of software quality assurance practices through the use of practical examples, quotes from experts, and tips from the authors
The Second Edition features new content, examples,methods, techniques, and best practices Assurance Technologies Principles and Practices is based on the assertion that safety is not a cost, but an excellent investment. According to the authors, more than sixty percent of problems in complex systems arise from incomplete, vague, and poorly written specifications. In keeping with the authors' passion for safety, the text is dedicated to uniting the gamut of disciplines that are essential for effective design applying assurance technology principles, including system safety, reliability, maintainability, human engineering, quality, logistics, software integrity, and system integration. Readers familiar with the first edition of this text will recognize all the hallmarks that have made it a classic in its field. The Second Edition features a host of new examples, methods, techniques, and best practices to bring the text fully up to date with the state of the art in assurance technology. Much new content has been added as well, including four new chapters: Managing Safety-Related Risks Statistical Concepts, Loss Analysis, and Safety-Related Applications Models, Concepts, and Examples: Applying Scenario-Driven Hazard Analysis Automation, Computer, and Software Complexities The text begins with an introduction and overview of assurance technology. Next, readers are provided with fundamental statistical concepts. The chapters that follow explore in depth the approaches and disciplines that make up assurance technology applications. Each chapter is organized into major phases-design, manufacturing, test, and use phase-that help readers understand both how and when to apply particular measures. Throughout the text, readers discover detailed examples that prepare them to manage real-world challenges. References and further reading are provided at the end of each chapter leading to more in-depth discussion on specialized topics. With its extensive use of examples and highly structured approach, this is an excellent course book for students in industrial engineering, systems engineering, risk engineering, and other assurance technology domains. Design and system engineers as well as safety professionals will find the material essential in troubleshooting complex projects and ensuring product, process, and system safety.
MATLAB® in Quality Assurance Sciences fills a gap in the highly topical field of quality assurance (QA). It is a compact guide for students, engineers, and scientists in this field. It concentrates on MATLAB® fundamentals with examples of application to a wide range of current problems from general, nano and bio-technology, and statistical control, to medicine and industrial management. Examples cover both the school and advanced level; comprising calculations of total quality management, six sigma, time series, process improvement, metrology, quality control, human factors in quality assurance, measurement and testing techniques, quality project and function management, and customer satisfaction. This book covers key topics, including: the basics of software with examples; graphics and representations; numerical computation, scripts and functions for QA calculations; ODE and PDEPE solvers applied to QA problems; curve fitting and time series tool interfaces in calculations of quality; and statistics calculations applied to quality testing. - Includes MATLAB® fundamentals, matrices, arrays, general graphics and specialized plots in quality assurance problems, script files, ordinary and partial differential equations - Gives calculation of six sigma, total quality management, time series forecasting, reliability, process improvement, metrology, quality control and assurance, measurement and testing techniques - Provides tools for graphical presentation, basic and special statistics and testing, ordinary and partial differential solvers, and fitting tools
Presenting the state of the art in component-based software testing, this cutting-edge resource offers you an in-depth understanding of the current issues, challenges, needs and solutions in this critical area. The book discusses the very latest advances in component-based testing and quality assurance in an accessible tutorial format, making the material easy to comprehend and benefit from no matter what your professional level. important, and how it differs from traditional software testing. From an introduction to software components, testing component-based software and validation methods for software components, to performance testing and measurement, standards and certification and verification of quality for component-based systems, you get a revealing snapshot of the key developments in this area, including important research findings. This volume also serves as a textbook for related courses at the advanced undergraduate or graduate level.
Working in the lab, but unsure what your results actually mean? Would you like to know how to apply trueness tests, calculate standard deviations, estimate measurement uncertainties or test for linearity? This book offers you a problem-based approach to analytical quality assurance (AQA). After a short introduction into required fundamentals, various topics such as statistical tests, linear regression and calibration, tool qualification or method validation are presented in the form of exercises for self-study. Solutions are provided in a clear step-by-step manner. Interactive Excel-sheets are available as Extra Materials for trying out the various concepts. For professionals as well as graduate students confronted with analytical quality assurance for the first time, this book will be the clue to meeting such challenges.

Quality Control

United States. Congress. Senate. Committee on Armed Services. Task Force on Selected Defense Procurement Matters

Published: 1985

Total Pages: 816


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Quality Assurance in Ceramic Industries represents the proceedings of a conference held at the New York State College of Ceramics, Alfred University, June 4-7, 1978, as fifteenth in a continuing series rotated annually among Alfred University, North Carolina State University, Notre Dame University and the University of California, Berkeley. The first four chapters develop the rationale for major efforts toward an integrated quality assurance program in the ceramic plant, to effect economy in manufacture, to reduce process losses and to improve product reliability and overall profitability. Chapters 5 and 6 cover the use of traditional and advanced statistical methods. They are followed by three chapters on quality assurance in raw materials production and procurement. Chapters 9 through 20 treat specific examples of techniques, sys tems and philosophy of quality assurance in glass, whitewares, abrasives, refractories, electroceramics, structural clay pro ducts and special ceramics for nuclear applications, turbines and igniters. The three concluding chapters deal with the broadly applicable subjects of failure analysis, gaging and life time predic tion. It is a pleasure to acknowledge the generous help and encouragement of the Program Committee: Messrs. R. A. Alliegro, Norton Company; D. L. Guile and R. N. McNally, Corning Glass Works; H. W. Larisch, Coors Porcelain Company; R. H. Lester, Ohio Brass Company (now at the Lapp Insulator Division of Interpace Corporation); R. J. Ryder, Brockway Glass Company and E. A. Thomas, Taylor Refractories Division, N L Indus trie s .