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A Clear, Comprehensive Introduction to Standards in the Engineering Professions Standards supplement the design process by guiding the designer toward consistency, safety, and reliability. As daily life involves increasingly complex and sophisticated instruments, standards become indispensable engineering tools to ensure user safety and product quality. Primer on Engineering Standards: Expanded Textbook Edition delves into standards creation and compliance to provide students and engineers with a comprehensive reference. The different types of standards are dissected and discussed in terms of development, value, impact, interpretation, and compliance, and options are provided for situations where conformance is not possible. The process of standards creation is emphasized in terms of essential characteristics and common pitfalls to avoid, with detailed guidance on how, where, and with whom one may get involved in official development. Organized for both quick reference and textbook study, this new Expanded Textbook Edition provides a quick, clear understanding of critical concepts, ramifications, and implications as it: Introduces the concepts, history, and classification of standards, rules, and regulations Discusses the federal, state, and local government’s role in standards development and enforcement Distinguishes voluntary consensus standards, limited consensus standards, and jurisdictional versus non-jurisdictional government standards Covers the need for and process of exemptions to existing standards Examines the characteristics of a good standard, and discusses opportunities for involvement in development Includes case studies to demonstrate standards applications, and extensive appendices to direct further inquiry The successful design, fabrication, and operation of any product relies on foundational understanding of pertinent standards; indeed, standards and guidelines form a central pillar of the engineering profession. This helpful resource goes beyond a list of rules to help students and practitioners gain a better understanding of the creation, import, and use of standards.
A Clear, Comprehensive Introduction to Standards in the Engineering Professions Standards supplement the design process by guiding the designer toward consistency, safety, and reliability. As daily life involves increasingly complex and sophisticated instruments, standards become indispensable engineering tools to ensure user safety and product quality. Primer on Engineering Standards: Expanded Textbook Edition delves into standards creation and compliance to provide students and engineers with a comprehensive reference. The different types of standards are dissected and discussed in terms of development, value, impact, interpretation, and compliance, and options are provided for situations where conformance is not possible. The process of standards creation is emphasized in terms of essential characteristics and common pitfalls to avoid, with detailed guidance on how, where, and with whom one may get involved in official development. Organized for both quick reference and textbook study, this new Expanded Textbook Edition provides a quick, clear understanding of critical concepts, ramifications, and implications as it: Introduces the concepts, history, and classification of standards, rules, and regulations Discusses the federal, state, and local government’s role in standards development and enforcement Distinguishes voluntary consensus standards, limited consensus standards, and jurisdictional versus non-jurisdictional government standards Covers the need for and process of exemptions to existing standards Examines the characteristics of a good standard, and discusses opportunities for involvement in development Includes case studies to demonstrate standards applications, and extensive appendices to direct further inquiry The successful design, fabrication, and operation of any product relies on foundational understanding of pertinent standards; indeed, standards and guidelines form a central pillar of the engineering profession. This helpful resource goes beyond a list of rules to help students and practitioners gain a better understanding of the creation, import, and use of standards.
A Clear, Comprehensive Introduction to Standards in the Engineering Professions Standards supplement the design process by guiding the designer toward consistency, safety, and reliability. As daily life involves increasingly complex and sophisticated instruments, standards become indispensable engineering tools to ensure user safety and product quality. Primer on Engineering Standards: Expanded Textbook Edition delves into standards creation and compliance to provide students and engineers with a comprehensive reference. The different types of standards are dissected and discussed in terms of development, value, impact, interpretation, and compliance, and options are provided for situations where conformance is not possible. The process of standards creation is emphasized in terms of essential characteristics and common pitfalls to avoid, with detailed guidance on how, where, and with whom one may get involved in official development. Organized for both quick reference and textbook study, this new Expanded Textbook Edition provides a quick, clear understanding of critical concepts, ramifications, and implications as it: Introduces the concepts, history, and classification of standards, rules, and regulations Discusses the federal, state, and local government’s role in standards development and enforcement Distinguishes voluntary consensus standards, limited consensus standards, and jurisdictional versus non-jurisdictional government standards Covers the need for and process of exemptions to existing standards Examines the characteristics of a good standard, and discusses opportunities for involvement in development Includes case studies to demonstrate standards applications, and extensive appendices to direct further inquiry The successful design, fabrication, and operation of any product relies on foundational understanding of pertinent standards; indeed, standards and guidelines form a central pillar of the engineering profession. This helpful resource goes beyond a list of rules to help students and practitioners gain a better understanding of the creation, import, and use of standards.
Created to support senior-level courses/modules in product design, K. L. Richard’s Engineering Design Primer reflects the author’s deep experience in engineering product management and design. The combination of specific engineering design processes within the broader context of creative, team-based product design makes this book the ideal resource for project-based coursework. Starting with design concepts and tasks, the text then explores materials selection, optimisation, reliability, statistics, testing and economic factors – all supported with real-life examples. Student readers will gain a practical perspective of the work they’ll be doing as their engineering careers begin. Features Presents the design, development and life-cycle management of engineered products Builds the skills and knowledge needed for students to succeed in their capstone design projects Brings design concepts alive with practical examples and descriptions Emphasises the team dynamics needed in engineering practice Examines probability, reliability, testing and life-cycle management of engineered products
This book serves as an introductory text to the forensic civil engineering discipline and provides guidelines for carrying out the practice in an effective (and ethical) manner.
Control Theory is at the heart of information and communication technologies of complex systems. It can contribute to meeting the energy and environmental challenges we are facing. The textbook is organized in the way an engineer classically proceeds to solve a control problem, that is, elaboration of a mathematical model capturing the process behavior, analysis of this model and design of a control to achieve the desired objectives. It is divided into three Parts. The first part of the text addresses modeling aspects through state space and input-output representations. The notion of the internal state of a system (for example mechanical, thermal or electrical), as well as its description using a finite number of variables, is also emphasized. The second part is devoted to the stability analysis of an equilibrium point. The authors present classical tools for stability analysis, such as linearization techniques and Lyapunov functions. Central to Control Theory are the notions of feedback and of closed-loop, and the third part of the textbook describes the linear control synthesis in a continuous and discrete-time framework and also in a probabilistic context. Quadratic optimization and Kalman filtering are presented, as well as the polynomial representation, a convenient approach to reject perturbations on the system without making the control law more complex. Throughout the text, different examples are developed, both in the chapters and in the exercises.
This primer addresses the basic concepts of model-based systems engineering. It covers the Model, Language, Behavior, Process, Architecture, and Verification and Validation. It is a call to consider the foundational principles behind those concepts. It is not designed to present novel insights into MBSE so much as to provide a guided tour of the touchstones of systems design. It is a guide to the new MBSE acolyte and a reminder to the experienced practitioner. It is our hope that you find this primer valuable. We welcome your comments and suggestions about improving it. Much of what we have learned about how it should be organized and presented has come from thoughtful contributions from the readers of the 1st edition.
Engineers are smart people. Their work is important, which is why engineering material should be written as deliberately and carefully as it will be read. Engineering Writing by Design: Creating Formal Documents of Lasting Value demonstrates how effective writing can be achieved through engineering-based thinking. Based on the authors’ combined experience as engineering educators, the book presents a novel approach to technical writing, positioning formal writing tasks as engineering design problems with requirements, constraints, protocols, standards, and customers (readers) to satisfy. Specially crafted for busy engineers and engineering students, this quick-reading, conversational text: Describes how to avoid logical fallacies and use physical reasoning to catch mistakes in claims Covers the essentials of technical grammar and style as well as the elements of mathematical exposition Emphasizes the centrality of the target audience, and thus the need for clear and concise prose Engineering Writing by Design: Creating Formal Documents of Lasting Value addresses the specific combination of thinking and writing skills needed to succeed in modern engineering. Its mantra is: to write like an engineer, you must think like an engineer. Featuring illustrative examples, chapter summaries and exercises, quick-reference tables, and recommendations for further reading, this book is packed with valuable tips and information practicing and aspiring engineers need to become effective writers.