In order to compete in the current commercial environment companies must produce greater product variety, at lower cost, all within a reduced product life cycle. To achieve this, a concurrent engineering philosophy is often adopted. In many cases the main realization of this is Design for Manufacture and Assembly (DFM/A). There is a need for in-depth study of the architectures for DFM/A systems in order that the latest software and knowledge-based techniques may be used to deliver the DFM/A systems of tomorrow. This architecture must be based upon complete understanding of the issues involved in integrating the design and manufacturing domains. This book provides a comprehensive view of the capabilities of advanced DFM/A systems based on a common architecture.

Discusses advancements in the field of Human Machine Interface. Provides practical knowledge in biomedical signal processing, AI and ML using MATLAB. Introduces biomedical signals for HMI applications. Discusses Augmented Reality/Virtual reality based HMI. Explores advancements in nanotechnology, user interface design and interactive systems.

This special issue is the first opportunity to introduce the research activities of the Human Interface Society. The first article gives a microworld approach to identify design requirements for better situation awareness. Next, a focus on evaluation of organizational structure in emergency situations from the communication viewpoints is examined, followed by a presentation of a speech-driven embodied interactive actor that activates human interaction and communication. The fourth paper describes two new additions to a Remote Infrared Audible Signage System for use by people with visual disabilities. Next, this special issue focuses on the design of an interactive skill-transfer agent for parameter tuning of an image sensor used to distinguish inferior goods from regular goods in a production line. Finally, a proposed embodied virtual communication system that provides a virtual face-to-face communication environment is discussed in the sixth article, followed by an outline of information on the usability activities in Japan with a focus on the last 10 years.

This textbook summarizes the course of engineering mechanics, designed for one or two semesters, at the undergraduate or graduate level for a range of academic majors. The book covers all the main components of the discipline including: Theoretical Mechanics, Theory of Mechanisms and Machines, Resistance of Materials, Machine Parts and Design Basic; and Interchangeability, Standardization, and Technical Measurements. It can also be used by students of other technical areas in to achieve competence in each of the listed disciplines. The concise presentation facilitates concentration on the most important elements of the concepts presented while also outlining the current state of mechanics, demonstrating engineering applications using various computer packages (MathCad, CosmosWorks, Inkscape, AutoCad), and updating data on engineering materials. Examples of both simple and complex engineering calculations are given at the end of each chapter along with self-assessment questions.

The articles in this special issue examine the relationship between gender identity and second language learning from a variety of perspectives, all of which share a basic grounding in sociocultural theories of learning and poststructural theories of language. (Re)constructing Gender in a New Voice presents a range of approaches to questions regarding the role of gender identity in a set of distinct local contexts. In this issue, Guest Editor Juliet Langman contends that an examination of the tensions between past and current ways of expressing identity will allow for continued theorizing on the nature of gender identity and its role in multiple language learning and use.

Offers a treatment of modern applications of modelling and simulation in crop, livestock, forage/livestock systems, and field operations. The book discusses methodologies from linear programming and neutral networks, to expert or decision support systems, as well as featuring models, such as SOYGRO, CROPGRO and GOSSYM/COMAX. It includes coverage on evaporation and evapotranspiration, the theory of simulation based on biological processes, and deficit irrigation scheduling.

This book collects the papers presented at the 7th International Conference on Risk Analysis and Crisis Response (RACR-2019) held in Athens, Greece, on October 15-19, 2019. The overall theme of the seventh international conference on risk analysis and crisis response is Risk Analysis Based on Data and Crisis Response Beyond Knowledge, highlighting science and technology to improve risk analysis capabilities and to optimize crisis response strategy. This book contains primarily research articles of risk issues. Underlying topics include natural hazards and major (chemical) accidents prevention, disaster risk reduction and society resilience, information and communication technologies safety and cybersecurity, modern trends in crisis management, energy and resources security, critical infrastructure, nanotechnology safety and others. All topics include aspects of multidisciplinarity and complexity of safety in education and research. The book should be valuable to professors, engineers, officials, businessmen and graduate students in risk analysis and risk management.

Measure twice, cut once. Although applicable to all areas of human factors research, the old adage is especially relevant to simulation and training. As a tool, simulation is an aid to the imagination, however, if incorrectly or inadequately used, it can lead to inaccurate outcomes that not only limit the possibilities but potentially cause harm. A comprehensive overview of the topic from a human factor perspective, Human Factors in Simulation and Training not only reflects the state-of-the art but also integrates the literature on simulation into a cohesive resource. The editors have collected chapters on a wide variety of topics, beginning with theory and application in areas ranging from traditional training to augmented reality to virtual reality. This coverage includes surface ships, submarines, naval aviation, commercial aviation, space, and medicine. The theory based section focuses on human factors aspects of simulation and training ranging from the history of simulators and training devices, to future trends in simulation from both a civilian and military perspective. The chapters expand on concepts regarding simulator usage particularly with respect to the validity and functionality of simulators as training devices. They contain in depth discussions of specific issues including fidelity, interfaces and control devices, transfer of training, simulator sickness, effects of motion in simulated systems, and virtual reality. As more, and more sophisticated, simulation tools and training technologies become available, a complete understanding of how to use them appropriately will be even more crucial. Elucidating theory and application, the book addresses numerous issues and concepts pertaining to human factors in simulation and training, making this volume an important addition to the bookshelf of any human factors professional.

Even when products and systems are highly localized, rarely is there one design suitable for a single, mono-cultural population of users. The products and systems created and used are cultural artifacts representing shared cognitions that characterize mental models that result from interactions with physical environments. Thus, culture is embedded and impacts the extent to which products are usable, accessible, useful, and safe. Products and systems that deviate from users' mental models may have negative consequences for users, ranging from minor annoyance to more serious consequences such as severe injury or death. Both an introduction and a primer, Cultural Ergonomics: Theory, Methods, and Applications demonstrates how cultural ergonomics can be applied in research and practitioner contexts. It covers selection of theories, descriptions of research designs, methods to analyze the results, case studies, and strategies used to draw inferences and conclusions in a vast array of areas including occupational safety, global issues, emergency management, human-computer interaction, warnings and risk communications, and product design. Human factors/ergonomics, as a discipline, is slowly integrating cultural ergonomics into efforts to explore human capabilities and limitations in the context of design and evaluation. Edited by experts and containing contributions from pioneers in this area, this book provides examples and methodologies within a human factors framework. It provides systematic methods to apply what is learned from analysis of culture to the design, development, and evaluation of products and systems.

Human error is involved in more than 90 percent of traffic accidents, and of those accidents, most are associated with visual distractions, or looking-but-failing-to-see errors. Human Factors of Visual and Cognitive Performance in Driving gathers knowledge from a human factors psychology standpoint and provides deeper insight into traffic -user behavior and the ways drivers acquire information from the road. Emphasizes Drivers as Visual Information Processors Because driving is an eyes-wide-open task, drivers are exposed to a multitude of visual stimuli along their journey. This information must be correctly processed in order to make the right decisions and perform precise safety maneuvers. With contributions from more than 20 leading experts, this detailed resource discusses road and markings design, new technologies, signage, distraction, safety, situation awareness, workload, driving experience, fatigue, and driving interventions with the goal of improving driving behavior and preventing accidents. Addresses These Key Areas: Visual attention and in-vehicle technologies Interventions to reduce road trauma Avoiding collisions and the failures involved in that endeavor Using jargon-free language that is easily understood, this book compresses research from the past few decades into one accessible resource. It clearly and cohesively provides ergonomics and human factor engineers, industrial designers, and highway and roadway engineers with an overarching understanding of the incessant visual demands drivers face.

Most books on standardization describe the impact of ISO and related organizations on many industries. While this is great for managing an organization, it leaves engineers asking questions such as "what are the effects of standards on my designs?" and "how can I use standardization to benefit my work?" Standards for Engineering Design and Manufacturing provides hands-on knowledge for incorporating standards into the entire process from design bench to factory floor. The book's five self-contained sections consider the scope of design and manufacturing, standards for the design of discrete products, standards for the manufacture of discrete products, standards for the use of discrete products, as well as support standards. The authors survey in detail the major standards-setting organizations and outline the procedure for developing standards. They consider standards from the perspective of product, equipment, and end-user, using this as a platform to explain the economic benefits of standardization. Case studies in every section illustrate the concepts and offer practical insight for using standards in CAD/CAM, selection of components, process planning, human/machine interaction, and computer interfacing. With its modular approach and practical wisdom based on the authors' years of broad experience, Standards for Engineering Design and Manufacturing supplies the tools to incorporate standards into every stage of design and manufacturing. For a summary of chapters, as well as illustrations and tools from the book, visit

This book systematically introduces the bionic nature of force sensing and control, the biomechanical principle on mechanism of force generation and control of skeletal muscle, and related applications in robotic exoskeleton. The book focuses on three main aspects: muscle force generation principle and biomechanical model, exoskeleton robot technology based on skeletal muscle biomechanical model, and SMA-based bionic skeletal muscle technology. This comprehensive and in-depth book presents the author's research experience and achievements of many years to readers in an effort to promote academic exchanges in this field. About the Author Yuehong Yin received his B.E. , M.S. and Ph.D. degrees from Nanjing University of Aeronautics and Astronautics, Nanjing, in 1990, 1995 and 1997, respectively, all in mechanical engineering. From December 1997 to December 1999, he was a Postdoctoral Fellow with Zhejiang University, Hangzhou, China, where he became an Associate Professor in July 1999. Since December 1999, he has been with the Robotics Institute, Shanghai Jiao Tong University, Shanghai, China, where he became a Professor and a Tenure Professor in December 2005 and January 2016, respectively. His research interests include robotics, force control, exoskeleton robot, molecular motor, artificial limb, robotic assembly, reconfigurable assembly system, and augmented reality. Dr. Yin is a fellow of the International Academy of Production Engineering (CIRP).

Human error is regularly viewed as an inevitable part of everyday life. In many cases the results of human error are harmless and correctable, but in cases where injury and death can occur, reduction of error is imperative. An integration of useful how-to-do-it information, Human Error: Causes and Control covers theories, methods, and specific techniques for controlling human error. It provides ideas, concepts, and examples from which selections can be made to fit the needs of a particular situation. Detailed, practical, and broad in scope, the book explores the field of human error, including its identification, its probable cause, and how it can be reasonably controlled or prevented. Experts in human factors, design engineering, and law, the authors explore and apply known generic principles effective in the prevention of consumer error, worker fault, managerial mistakes, and organizational blunders. They discuss errors and their effects in our increasingly complex technological society and delineate how to devise a proper framework, select workable concepts and techniques, and then implement them. Exploring widespread applications of the techniques, the book illustrates how to achieve a fully integrated, process-compatible, comprehensive, user-effective, and methodologically sound model.

This textbook describes the basic mechanical features of concrete and explains the main resistant mechanisms activated in the reinforced concrete structures and foundations when subjected to centred and eccentric axial force, bending moment, shear, torsion and prestressing. It presents a complete set of limit-state design criteria of the modern theory of RC incorporating principles and rules of the final version of the official Eurocode 2. This textbook examines methodological more than notional aspects of the presented topics, focusing on the verifications of assumptions, the rigorousness of the analysis and the consequent degree of reliability of results. Each chapter develops an organic topic, which is eventually illustrated by examples in each final paragraph containing the relative numerical applications. These practical end-of-chapter appendices and intuitive flow-charts ensure a smooth learning experience. The book stands as an ideal learning resource for students of structural design and analysis courses in civil engineering, building construction and architecture, as well as a valuable reference for concrete structural design professionals in practice.

The complexity of modern chip design requires extensive use of specialized software throughout the process. To achieve the best results, a user of this software needs a high-level understanding of the underlying mathematical models and algorithms. In addition, a developer of such software must have a keen understanding of relevant computer science aspects, including algorithmic performance bottlenecks and how various algorithms operate and interact. This book introduces and compares the fundamental algorithms that are used during the IC physical design phase, wherein a geometric chip layout is produced starting from an abstract circuit design. This updated second edition includes recent advancements in the state-of-the-art of physical design, and builds upon foundational coverage of essential and fundamental techniques. Numerous examples and tasks with solutions increase the clarity of presentation and facilitate deeper understanding. A comprehensive set of slides is available on the Internet for each chapter, simplifying use of the book in instructional settings. "This improved, second edition of the book will continue to serve the EDA and design community well. It is a foundational text and reference for the next generation of professionals who will be called on to continue the advancement of our chip design tools and design the most advanced micro-electronics." Dr. Leon Stok, Vice President, Electronic Design Automation, IBM Systems Group "This is the book I wish I had when I taught EDA in the past, and the one I'm using from now on." Dr. Louis K. Scheffer, Howard Hughes Medical Institute "I would happily use this book when teaching Physical Design. I know of no other work that's as comprehensive and up-to-date, with algorithmic focus and clear pseudocode for the key algorithms. The book is beautifully designed!" Prof. John P. Hayes, University of Michigan "The entire field of electronic design automation owes the authors a great debt for providing a single coherent source on physical design that is clear and tutorial in nature, while providing details on key state-of-the-art topics such as timing closure." Prof. Kurt Keutzer, University of California, Berkeley "An excellent balance of the basics and more advanced concepts, presented by top experts in the field." Prof. Sachin Sapatnekar, University of Minnesota

This book showcases cutting-edge research papers from the 8th International Conference on Research into Design (ICoRD 2021) written by eminent researchers from across the world on design processes, technologies, methods and tools, and their impact on innovation, for supporting design for a connected world. The theme of ICoRD'21 has been "Design for Tomorrow". The world as we know it in our times is increasingly becoming connected. In this interconnected world, design has to address new challenges of merging the cyber and the physical, the smart and the mundane, the technology and the human. As a result, there is an increasing need for strategizing and thinking about design for a better tomorrow. The theme for ICoRD'21 serves as a provocation for the design community to think about rapid changes in the near future to usher in a better tomorrow. The papers in this book explore these themes, and their key focus is design for tomorrow: how are products and their development be addressed for the immediate pressing needs within a connected world? The book will be of interest to researchers, professionals and entrepreneurs working in the areas on industrial design, manufacturing, consumer goods, and industrial management who are interested in the new and emerging methods and tools for design of new products, systems and services.

Occupational Ergonomics: Engineering and Administrative Controls focuses on prevention of work-related musculoskeletal disorders with an emphasis on engineering and administrative controls. Section I provides knowledge about risk factors for upper and lower extremities at work, while Section II concentrates on risk factors for work-related low back disorders. Section III discusses fundamentals of surveillance of musculoskeletal disorders, requirements for surveillance database systems, OSHA Record keeping system, and surveillance methods based on the assessment of body discomfort. Section IV focuses on medical management of work-related musculoskeletal disorders, including programs for post-injury management, testing of physical ability for employment decisions, assessment of worker strength and other functional capacities, and applications of ergonomics knowledge in rehabilitation.

Additive Manufacturing (AM) has altered manufacturing as we know it, with shortened development time, increased performance, and reduced product costs. Executive management in industry are bombarded by marketing from their competitors showcasing design solutions leveraged through AM. Therefore, executive management ask their project management teams to figure out how to utilize AM within their own company. Clueless on how to approach the problem, managers start learning about AM from experts and become overwhelmed at the highly technical information. Unlike other AM books that focus on the technical output of AM technology, this new book focuses solely on the managerial implementation. Features Presents the impacts of AM technology Provides engaging, practical, and entertaining "war stories" from the front line of AM industrialization Describes in detail, the significant hurdles in AM certification and implementation Offers templates of proven change management best practices, as practical solutions Omits the technical verbiage that gets in the way of management understanding how the process is implemented

Without standardized construction elements such as nuts, bolts, bearings, beams, resistors and the like, the design of physical equipment is hopelessly inefficient, and engineers are continually bogged down with re-designing these elements over and over again. The same can be said for the domain of ideas and performance requirements. Only through a process of standardization of the corresponding functional elements will systems engineering truly live up to its potential of increased efficiency and quality. Designing Complex Systems: Foundations of Design in the Functional Domain introduces students and practitioners in the field of system design to a particular methodology that addresses design issues in a rigorous and consistent top-down fashion. It also reassesses the characteristics of engineering and its place within the field of intellectual activity, in particular, examining the creative aspects of design as reflected in the difference between engineers and technicians. Erik W. Aslaksen brings forty years of experience to the table with this groundbreaking work. He examines how the concept of value can provide a quantitative measure of that wider interaction of the engineered object with its environment. With its forward-looking approach and holistic perspective, this volume is sure to advance the field of knowledge of systems engineering for years to come.

Design happens everywhere, whether in animate objects (e.g., dendritic lung structures, bacterial colonies, and corals), inanimate patterns (river basins, beach slope, and dendritic crystals), social dynamics (pedestrian traffic flows), or engineered systems (heat dissipation in electronic circuitry). This design in nature often takes on remarkably similar patterns, which can be explained under one unifying Constructal Law. This book explores the unifying power of the Constructal Law and its applications in all domains of design generation and evolution, ranging from biology and geophysics to globalization, energy, sustainability, and security.
The Constructal Law accounts for the universal tendency of flow systems to morph into evolving configurations that provide greater and easier access over time. The Constructal Law resolves the many and contradictory ad hoc statements of optimality, end design, and destiny in nature, such as minimum and maximum entropy production and minimum and maximum flow resistance, and also explains the designs that are observed and copied in biomimetics.
"Constructal Law and the Unifying Principle of Design" covers the fundamentals of Constructal Theory and Design, as well as presenting a variety ofstate-of-the-art applications. Experts from the biological, physical and social sciences demonstrate the unification of all design phenomena in nature, and apply this knowledge to novel designs in modern engineering, such as vascularization for self-healing and self-cooling materials for aircraft, and tree fins and cavities for heat transfer enhancement.

Aviation remains one of the most active and challenging domains for human factors and applied psychology. Since 1981, the biennial International Symposium on Aviation Psychology (ISAP) has convened for the purposes of (a) presenting the latest research on human performance problems and opportunities within aviation systems, (b) envisioning design solutions that best utilize human capabilities for creating safe and efficient aviation systems, and (c) the bringing together of scientists, research sponsors, and operators in an effort to bridge the gap between research and application. Based upon the potential impact of emerging trends, current debates, or enduring issues presented at the 19th ISAP, select authors were invited to expand on their work following the benefit of interactions at the symposium. The authors include leading scientists, prominent researchers, and aviation operators contributing to the discussion of the most pressing technical challenges and research priorities. Visions for the incorporation of new interface technologies within next-generation cockpits, tools for future air traffic control research, neuroergonomic findings in aviation settings, and human limitations affecting safety are offered. The aim of these volumes is to report the latest findings in aviation psychology and to suggest new directions for advancing the field. FEATURES Bridges the gap between aviation psychology research and real-world challenges Includes work of the distinguished researchers and seasoned practitioners with select contributions reflecting significant developments in aviation psychology Reports on the latest findings in aviation psychology and suggests new directions for advancing the field Contains work on perceptual and cognitive influences on performance, the impact of advanced modeling techniques, and the potential of neuroergonomics

Since the publication of the first edition, several Additive Manufacturing technologies have been invented, and many new terminologies have been formalized. Each chapter has been brought up-to-date so that this book continues with its coverage of engineering procedures and the application of modern prototyping technologies, such as Additive Manufacturing (AM) and Virtual Prototyping (VP) that quickly develops new products with lower costs and higher quality. The examples, practice exercises, and case studies have also been updated. Features Gears toward rapid product prototyping technologies Presents a wide spectrum of prototyping tools and state-of-the-art additive manufacturing technologies Explains how to use these rapid product prototyping tools in the development of products Includes examples and case studies from the industry Provides exercises in each chapter along with solutions

This book presents a collection of chapters describing the state of the art on computational modelling and fabrication in tissue engineering. Tissue Engineering is a multidisciplinary field involving scientists from different fields. The development of mathematical methods is quite relevant to understand cell biology and human tissues as well to model, design and fabricate optimized and smart scaffolds. The chapter authors are the distinguished keynote speakers at the first Eccomas thematic conference on Tissue Engineering where the emphasis was on mathematical and computational modeling for scaffold design and fabrication. This particular area of tissue engineering, whose goal is to obtain substitutes for hard tissues such as bone and cartilage, is growing in importance.

Providing detailed analysis of the thermal comfort assessment of clothing as the basis for developing standards, this book discusses the thermal protective role of clothing as a way of modelling heat transfer from the body, general thermal regulation of humans, and the importance of globally accepted test methods and standards to improve quality. New materials and discoveries in the study of thermal comfort necessitate the need for standard improvements and update. The development of international standards and the unification of testing methods is of crucial significance to ensure cost reduction and health protection. The book promotes instruments, methods, implementation of unified specifications, and the definition of standards so that a clear quality management system can be established, for both production systems and testing methods. It discusses standards in ergonomics of the thermal environment, clothing thermal characteristics, and subjective assessment of thermal comfort, which allows for systematic control of the measuring methods and the services and final products that are distributed on the global market. This book is aimed at industry professionals, researchers, and advanced students working in textile and clothing engineering, comfort testing, and ergonomics.

The book demonstrates how Resilient Health Care principles can enable those on the frontline to work more effectively towards interdisciplinary care by gaining a deeper understanding of the boundaries that exist in everyday clinical settings. This is done by presenting a set of case studies, theoretical chapters and applications that relate experiences, bring forth ideas and illustrate practical solutions. The chapters address many different issues such as resolving conflict, overcoming barriers to patient-flow management, and building connections through negotiation. They represent a range of approaches, rather than a single way of solving the practical problems, and have been written to serve both a scientific and an andragogical purpose. Working Across Boundaries is primarily aimed at people who are directly involved in the running and improvement of health care systems, providing them with practical guidance. It will also be of direct interest to health care professionals in clinical and managerial positions as well as researchers. Presents the latest work of the lauded Resilient Health Care Net group, developing applications of Resilience Engineering to health care, furthering safety thinking and generating applicable solutions that will benefit patient safety worldwide Enables health care professionals to become aware of the boundaries that affect their work so that they are able to use their strengths and overcome their weaknesses Written from a Safety-II perspective, where the purpose is to make sure that as much as possible goes well and the focus therefore is on everyday work rather than on failures. There are at present no other books that adopt this perspective nor which go into the practical details Provides a concise presentation of the state of resilient health care as a science, in terms of major theoretical issues and practical methods and techniques on the overarching and important topics of boundary-crossing and integration of care settings