The second edition of a bestseller, this book discusses an integrated product and process design that has been successfully used to conceptualize, design, and rapidly product competitively-priced quality products. It examines the overlapping, interacting, and iterative nature of the engineering aspects that impact the product realization process. A detailed introduction to the creation of high quality products, the new edition explores the role of innovation, requirements engineering, smart materials, different rapid prototyping methods, and life-cycle cost determination, to name just a few. The book delineates proven methods that have been used successfully to create products.
This book explores a process perspective on design and development, grounded in research in design studies, engineering design and systems design. The design and development process is important---it creates all artificial products and systems and determines how well they address human needs. The process perspective set out in this book has value for design and development practice and education, and is in its own right a fascinating topic of investigation. This book expands on the foundations of a process perspective and discusses its realisation in many process models, theories and approaches that have been developed over the years. The chapters provide connected overviews of key concepts and introduce new conceptual frameworks to clarify relationships between the contributions discussed. Practical considerations and competencies required to realise the tangible benefits of a process perspective are also discussed. A unique aspect of this book is that it brings together many perspectives on the design and development process: those that focus on individual design activity through to those that focus on large-scale development projects; those of research interest and those of practical interest; and those of relevance to design contexts ranging from human-centered design to engineering design and systems design. The chapter bibliographies collect carefully-selected recommendations for further reading on each topic discussed. The book additionally contains many figures presented in colour, visually reflecting each topic's relationship to the new organising frameworks that are introduced.
This text addresses the issues of how to develop new service products - where the concept of service has moved from transaction to experience. The authors draw upon the expertise of internationally recognised authors.
This text presents a set of product development techniques aimed at bringing together the marketing, design, and manufacturing functions of the enterprise. The integrative methods facilitate problem-solving and decision-making.
Since the success of products significantly depends on the quality of product performance, inadequate management of the product design process can lead to improper performance of products that can result in significant long-term business losses. Design for Profitability: Guidelines to Cost Effectively Manage the Development Process of Complex Products presents a design guideline for complex product design and development that enables you to cost-effectively improve the technical performance of your products and consequently improve your competitiveness in the marketplace as well as improve profitability. The book helps you improve the competitiveness of your organization in the market and eventually improve profitability. It presents a mobile robots design guideline based on an empirical study of the mobile robots design process. This is an unprecedented guideline based on the empirical investigation of the internal aspects of the design process of complex products for cost-effectively enhancing the competitiveness in the market. The book also presents a hybrid lean-agile design paradigm for mobile robots. In addition, it points out key approaches and risks to manage the product development process efficiently. In designing complex products and integrated systems, industrial designers face a dilemma of cost-effectively striking a balance between product development time and product performance attributes. This book shows how and when value is added in product design and development through identifying statistically the most and least correlated design activities and strategies to product performance attributes. Introducing a new paradigm in the field of engineering design, the book gives you key approaches to efficiently manage the product development process.
Almost each and every electronic gadget around us is an embedded system, for example: Smart phone, palmtop, digital watch, digital camera, printer, scanner, washer machine control panel, home security system, and many more. Embedded systems have revolutionized our society into a digital world due to the fact that they are microcontroller-based, compact in sizes, reliable in performance, and cheaper in cost. Book ContentsThis book will assist you to learn about embedded systems, its design and development process. Four serial phases: plan, design, integrated development (ID), design verification and validation (DV&V) are presented and discussed in this book.This book begins by introducing what the embedded system basics are. Chapter 1 present classification and aspect of embedded systems, describes embedded systems' hardware and software characteristics. Then it is continued by chapter 2 to depict a time-task span of the embedded system product development process.Chapter 3, 4, 5, and 6, each describes the four phases of the design and development process respectively, which are Plan (Chapter 3), Design (chapter 4), Integrated Development (Chapter 5), Design Verification and Validation (Chapter 6). Plan phase (Chapter 3) describes product requirement, cost analysis, development strategy, management plan, development methodology, design tools and equipment.Design phase (Chapter 4) go over each design process flows, and present descriptions on: hardware board design process, hardware PCB design process, signal integrity analysis and simulation, software design process, and FPGA design process.Integrated Development phase (Chapter 5) discuss on: mechanical and PCB preparations, parts acquisition, FPGA preparation, PCB assembly, hardware testing and debug, hardware/software integrated development, and virtual prototype.Design Verification and Validation phase (Chapter 6) present appearance inspection, functional testing, characteristics and measurements, performance testing, and ESD, EMC, safety testing.Appendixes in this book provide tables and descriptions on hardware and software design checklists, guidelines, and development tools for reference. Bold texts in the paragraphs shall represent a development process name, phase name, step name, or a term of the glossary, or an emphasis.Audience: This book is intentionally written for following audience: -Managers and team leaders who need to manage and guide embedded system design and development process effectively.-Engineers and technicians who want to speed up and optimize embedded system design and development process.-New graduates and students who want to study and learn embedded system design and development process.-Interested readers who want explore embedded system design and development process.
"The P-51 Mustang—perhaps the finest piston engine fighter ever built—was designed and put into flight in just a few months. Specifications were finalized on March 15, 1940; the airfoil prototype was complete on September 9; and the aircraft made its maiden flight on October 26. Now that is a lean development process!" —Allen Ward and Durward Sobek, commenting on the development of the P-51 Mustang and its exemplary use of trade-off curves. Shingo Research and Professional Publication Award recipient, 2008 Despite attempts to interpret and apply lean product development techniques, companies still struggle with design quality problems, long lead times, and high development costs. To be successful, lean product development must go beyond techniques, technologies, conventional concurrent engineering methods, standardized engineering work, and heavyweight project managers. Allen Ward showed the way. In a truly groundbreaking first edition of Lean Product and Process Development, Ward delivered -- with passion and penetrating insights that cannot be found elsewhere -- a comprehensive view of lean principles for developing and sustaining product and process development. In the second edition, Durward Sobek, professor of Mechanical and Industrial Engineering at Montana State University—and one of Ward’s premier students—edits and reorganizes the original text to make it more accessible and actionable. This new edition builds on the first one by: Adding five in-depth and inspiring case studies. Including insightful new examples and illustrations. Updating concepts and tools based on recent developments in product development. Expanding the discussion around the critical concept of set-based concurrent engineering. Adding a more detailed table of contents and an index to make the book more accessible and user-friendly. The True Purpose of Product Development Ward’s core thesis is that the very aim of the product development process is to create profitable operational value streams, and that the key to doing so predictably, efficiently, and effectively is to create useable knowledge. Creating useable knowledge requires learning, so Ward also creates a basic learning model for development. But Ward not only describes the technical tools needed to make lean product and process development actually work. He also delineates the management system, management behaviors, and mental models needed. In this breakthrough text, Ward: Asks fundamental questions about the purpose and “value added” in product development so you gain a crystal clear understanding of essential issues. Shows you how to find the most common forms of “knowledge waste” that plagues product development. Identifies four “cornerstones” of lean product development gleaned from the practices of successful companies like Toyota and its partners, and explains how they differ from conventional practices. Gives you specific, practical recommendations for establishing your own lean development processes. Melds observations of effective teamwork from his military background, engineering fundamentals from his education and personal experience, design methodology from his research, and theories about management and learning from his study of history and experiences with customers. Changes your thinking forever about product development.
AECT Design & Development Outstanding Book Award for 2008! Design and Development Research thoroughly discusses methods and strategies appropriate for conducting design and development research. Rich with examples and explanations, the book describes actual strategies that researchers have used to conduct two major types of design and development research: 1) product and tool research and 2) model research. Common challenges confronted by researchers in the field when planning and conducting a study are explored and procedural explanations are supported by a wide variety of examples taken from current literature. Samples of actual research tools are also presented. Important features in this volume include: concise checklists at the end of each chapter to give a clear summary of the steps involved in the various phases of a project; an examination of the critical types of information and data often gathered in studies, and unique procedures for collecting these data; examples of data collection instruments, as well as the use of technology in data collection; and a discussion of the process of extracting meaning from data and interpreting product and tool and model research findings. Design and Development Research is appropriate for both experienced researchers and those preparing to become researchers. It is intended for scholars interested in planning and conducting design and development research, and is intended to stimulate future thinking about methods, strategies, and issues related to the field.
While investigations into both theories and models has remained a major strand of engineering design research, current literature sorely lacks a reference book that provides a comprehensive and up-to-date anthology of theories and models, and their philosophical and empirical underpinnings; An Anthology of Theories and Models of Design fills this gap. The text collects the expert views of an international authorship, covering: · significant theories in engineering design, including CK theory, domain theory, and the theory of technical systems; · current models of design, from a function behavior structure model to an integrated model; · important empirical research findings from studies into design; and · philosophical underpinnings of design itself. For educators and researchers in engineering design, An Anthology of Theories and Models of Design gives access to in-depth coverage of theoretical and empirical developments in this area; for practitioners, the book will provide exposure to theoretical and empirical foundations to methods and tools that are currently practiced as well as those in the process of development.
This book demonstrates the step-by-step process involved in designing a Web site. Readers are assumed to be familiar with whatever Web publishing tool they are using. The guide gives few technical details but instead focuses on the usability, layout, and attractiveness of a Web site, with the goal being to make it as popular with the intended audience as possible. Considerations such as graphics, typography, and multimedia enhancements are discussed.