This is a short guide on sit-stand working in the office. It reviews the research on sitting and standing at work from the 1950s to present and provides guidance for specialists, therapists, practitioners, and managers. The book is illustrated with many photos and figures, provides guidance for active working at the end of every chapter, and is understandable to the layman as well as the specialist. With the increased emphasis on healthy lifestyles, coupled with the obesity and overweight epidemic, many are claiming that we should spend more time standing at work. Some have even claimed that sitting is the new smoking. Readers of the book will learn and understand what is behind these claims, what stacks-up, what doesn't, and be able to make informed decisions about whether to invest in new facilities, and what to invest. This book is of value to human factors specialists, physical therapists, chiropractors and occupational health practitioners, architects, and facilities managers. Features Explains the origins of sedentary office work Summarizes the health risks of sitting and standing and how to avoid them Reviews new research on active working and practical ways of developing active working habits in the office Discusses the obesogenic workplace, and how to avoid it Includes over 60 key points to help you decide how to be more active at work

Reuse in Electronic Design From Information Modelling to Intellectual Properties Peter Conradi Berlin, Germany Reuse of existing IC intellectual property blocks is currently the hot topic in electronic design automation. By cutting development time and improving designer productivity, reuse offers a faster time to market and consequently increased profitability. Conradi encompasses the fundamentals of physical system modelling, design methodologies and basic design architectures plus reuse strategies and tasks. Features include:
* Graph-oriented visualisations enabling the reader to understand the requirements of future interdisciplinary design tools
* Guidance on information modelling languages, system classification and decomposition of systems under development
* Section on reuse strategies and tasks examining the practical aspects of the technique for both analogue and digital design
* Data management and retrieval methods including the algebra of the selection process
* Comprehensive appendices covering fine-grained design representations, VLSI design standards and data model extraction of a VHDL multiplier design
This timely exposition of design capture and manipulation techniques will be a boon for postgraduate electronics students and researchers. CAD engineers and electronic designers will profit from the industry examples and the practical applications of the reuse cycle.

This book examines an emerging organizational form called the multi-team system (MTS). This type of aggregation is being increasingly adopted by organizations and agencies that need to respond to complex strategic problems. There has been increasing interest in MTSs over the last decade to the point where there is now a need to (a) describe these organizational forms more fully, (b) build conceptual frames that can guide research, and (c) begin developing tools to improve the study of MTSs. The purpose of this book is to respond to these needs. The book contains a series of chapters that expand prior conceptual frames of MTSs, defining in more detail the compositional and linkage attributes that characterize such units. The book also explores how such systems emerge and develop, as well as the methods for studying MTSs. The intent of the book is to establish and nurture a strong conceptual and methodological foundation that can guide research and practice with MTSs. Because the notion of MTSs cuts across multiple domains, this book will interest scholars in industrial/organizational psychology, organizational science, management and organizational theory, human factors, sociology, organization communications, and public administration.

Two of the most important yet often overlooked aspects of a medical device are its usability and accessibility. This is important not only for health care providers, but also for older patients and users with disabilities or activity limitations. Medical Instrumentation: Accessibility and Usability Considerations focuses on how lack of usability and accessibility pose problems for designers and users of medical devices, and how to overcome these limitations. Divided into five broad sections, the book first addresses the nature and extent of the problem by identifying access barriers, human factors, and policy issues focused on the existing infrastructure. The subsequent sections examine responses to the problem, beginning with tools for usability and accessibility analysis and principles of design for medical instrumentation. Building on this foundation, the third section focuses on recommendations for design guidelines while the fourth section explores emerging trends and future technologies for improving medical device usability. The final section outlines key challenges, knowledge gaps, and recommendations from accomplished experts in the field presented at the recent Workshop on Accessible Interfaces for Medical Instrumentation. Integrating expert perspectives from a wide array of disciplines, Medical Instrumentation traces a clear roadmap for improving accessibility and usability for a variety of stakeholders and provides the tools necessary to follow it.

Accident prevention is a common thread throughout every aspect of our society. However, even with the most current technological developments, keeping people safe and healthy, both at workplaces and at other daily activities, is still a continual challenge. When it comes to work environments, ergonomics and human factors knowledge can play an important role and, therefore, must be included in, or be a part of, the safety management as a cross-disciplinary area concerned with the understanding of actual work situations and potential variables. This multidisciplinary approach will ultimately ensure the safety, health, and well-being of all collaborators. The main goal of this book is to present theories and models, and to describe practices to foster and promote safer work and working environments. This book offers: * Examples of field practices that can be reproduced in other scenarios * Applications of new methods for risk assessment * Methods on how to apply and integrate human factors and ergonomics in accident prevention and safety management * Coverage of human factors and ergonomics in safety culture * New methods for accident analysis This book is a compilation of contributions from invited authors organized in three main topics from eleven countries and is intended to cover specific aspects of safety and human factors management ranging from case studies to the development of theoretical models. Hopefully, the works presented in the book can be an inspiration for translating research into useful actions and, ultimately, making a relevant and tangible contribution to the safety of our daily and work settings.

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.

This book summarizes the activities of the Generic Intelligent Driver Support (GIDS) Consortium and offers recommendations for successful GIDS implementation. It is based on the GIDS Project, a part of the EC-funded Dedicated Road Infrastructure for Vehicle Safety in Europe Programme.

Large-Scale 3D Data Integration: Challenges and Opportunities examines the fundamental aspects of 3D geo-information, focusing on the latest developments in 3D GIS (geographic information) and AEC (architecture, engineering, construction) systems. This book addresses policy makers, designers and engineers, and individuals that need to overcome obstacles in integrating modeling perspectives and data. Organized into four major parts, the book begins by presenting a historical overview of the issues involved in integrating GIS and AEC. Part II then focuses on the data issue from several viewpoints: data collection; database structures and representation; database management; and visualization. Part III covers the areas of semantics, ontology, and standardization from a theoretical perspective and details many of the best examples of this approach in developing real-world applications. The book concludes with contributions that focus on recent advances in virtual geographic environments and alternative modeling schemes for the potential AEC/GIS interface.

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.

By 2030, 20 percent of the world's drivers, 60 million in all, will be over the age of 65. Consequently, safe and efficient mobility for older adults is a complex and pressing issue. Maintaining Safe Mobility in an Aging Society addresses the complexities surrounding the booming number of aging drivers and practical solutions for sustaining safe transportation for this growing group. This plainspoken resource informs safe mobility discussions on a variety of areas, including: Necessary skills for safe driving and how age affects them Current evidence on how medical conditions and medication hinder driving skills Comprehensive screening description and assessment practices, issues, and tools Sensitive ways to help older drivers transition into driving cessation Impact of advanced vehicle technology on aging drivers Approaches to strengthening safety-conscious licensing policies Draws the Significant Link Between Mobility and Well Being In addition to discussing how age impacts both the risk and severity of accidents and the link between mobility and well-being, this authoritative work discusses means to achieve safer mobility, including roadway design and community transportation options. Authored by driver safety and awareness experts, it covers psychological and physical changes associated with age (both normal and pathological), including an important but rarely explored aspect of dementia known as wandering behavior. It also addresses the role of emerging technology. Maintaining Safe Mobility in an Aging Society is a concise reference that encompasses an impressive breadth of ready-to-access information. Thorough and systematically organized, it is a groundbreaking and indispensable resource for those prov

The goal for ergonomics has always been to adapt work, work environments, and machines to humans. But is this goal still sufficient? Does it satisfy the needs of the individual or of societies and organizations as they operate now? Constructive Ergonomics provides an answer to these questions. Rooted both in the academic world and in the world of practitioners of the domain, it details a constructive, developmental view where ergonomics seeks to eliminate the factors and conditions that impede performance and development. This book advocates that ergonomics cannot remain content with a limited and static view of adaptation, a view that would restrict its goal to designing systems that are suited to work as it is defined at a certain point in time, to workers as they are at a particular moment, and to organizations as they operate here and now. Author Pierre Falzon argues that the objective of ergonomics must be the development of individuals, based on setting up situations of action that lead to increased success and to the acquisition or construction of know-how, knowledge, and skills. The global framework presented in this book revises profoundly the goals of the discipline, elucidating a novel approach to work, health, and performance shored up by integration models from economics and management theory. An exploration of an innovative, developmental view of ergonomics, the book redefines the ambition of the discipline and describes the elements of its scope. It provides a solid and new conceptual background and methodological tools for intervening in real-life contexts.

Recognized as a "Recommended" title by Choice for their November 2020 issue. Choice is a publishing unit at the Association of College & Research Libraries (ACR&L), a division of the American Library Association. Choice has been the acknowledged leader in the provision of objective, high-quality evaluations of nonfiction academic writing. Presenting a fundamental definition of resilience, the book examines the concept of resilience as it relates to space system design. The book establishes the required definitions, relates its place to existing state-of-the-art systems engineering practices, and explains the process and mathematical tools used to achieve a resilient design. It discusses a variety of potential threats and their impact upon a space system. By providing multiple, real-world examples to illustrate the application of the design methodology, the book covers the necessary techniques and tools, while guiding the reader through the entirety of the process. The book begins with space systems basics to ensure the reader is versed in the functions and components of the system prior to diving into the details of resilience. However, the text does not assume that the reader has an extensive background in the subject matter of resilience. This book is aimed at engineers and architects in the areas of aerospace, space systems, and space communications.

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).

As computers proliferate and as the field of computer graphics matures, it has become increasingly important for computer scientists to understand how users perceive and interpret computer graphics. Experimental Design: From User Studies to Psychophysics is an accessible introduction to psychological experiments and experimental design, covering the major components in the design, execution, and analysis of perceptual studies. The book begins with an introduction to the concepts central to designing and understanding experiments, including developing a research question, setting conditions and controls, and balancing specificity with generality. The book then explores in detail a number of types of experimental tasks: free description, rating scales, forced-choice, specialized multiple choice, and real-world tasks as well as physiological studies. It discusses the advantages and disadvantages of each type and provides examples of that type of experiment from the authors' own work. The book also covers stimulus-related issues, including popular stimulus resources. It concludes with a thorough examination of statistical techniques for analyzing results, including methods specific to individual tasks.

This volume presents world-leading ideas and research that explores some of the most prominent topics relevant to detecting terrorism. The book is divided into six key themes: conceptualising terrorism, deception and decision making, social and cultural factors in terrorism, modelling hostile intent, strategies for counter-terrorism, and future directions. Twenty two chapters cover the spectrum of detecting terrorist activities, hostile intent, crowded public spaces and suspicious behaviour. The work draws from high impact research findings and presents case-studies to help communicate concepts. Specific areas of interest include methodological issues in counter-terrorism, counter terrorism policy and its impact on end users, novel research methods and innovative technologies in counter-terrorism. A variety of disciplines are represented by this work, including: ergonomics/human factors, psychology, criminology, cognitive science, sociology, political theory, art/design, engineering and computer science. This book not only expands the knowledge base of the subject area and is therefore of prime relevance to researchers investigating counter-terrorism, but provides a valuable resource to security stakeholders at policy and practitioner levels.

Management of hazardous chemicals and materials-particularly during emergency release situations-is a critical part of routine training required for workers and professionals in the chemical, petroleum and manufacturing industries. Proper storage of highly reactive chemical agents, correct choice of protective clothing and safety issues in confined spaces are vital to operating facilities. Inattention to these and other issues covered in this book can result in a loss of life, dispersal of toxic chemical agents into the environment, or fire and explosion and subsequent legal liabilities.Emergency Response and Hazardous Chemical Management: Principles and Practices provides a concise reference for management and workers on the important issues regarding the use and management of hazardous chemicals as well as the critical issues in the emergency response management of uncontrolled releases of hazardous agents. This book combines practical information on hazardous chemical response and environmental management with scientific and management issues important in the development of sound chemical management planning. Important current topics such as hazardous chemical management in confined spaces are also covered in detail.

Metal Cutting Mechanics outlines the fundamentals of metal cutting analysis, reducing the extent of empirical approaches to the problems as well as bridging the gap between design and manufacture. The author distinguishes his work from other works through these aspects: considering the system engineering of the cutting process identifying the singularity of the cutting process among other closely related manufacturing processes by chip formation, caused by bending and shear stresses in the deformation zone suggesting a distinctive way toward predictability of the metal cutting process devoting special attention to experimental methodology Metal Cutting Mechanics provides an exceptional balance between general reading and research analysis, presenting industrial and academic requirements in terms of basic scientific factors as well as application potential.

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.

With the increase of globalization of business and industry, IT products and services are often produced and marketed across geographical cultural boundaries without adequate consideration of culture. There is a high probability that IT products and services developed in one country may not be effectively used in another country, which may hinder their market penetration, sales, and use. Based on research and practice, Cross-Cultural Design for IT Products and Services provides a resource for human factors engineers, designers, and marketing professionals who define and develop IT products and services for the global market. With its extensive review of cross-cultural theory and cross-cultural design literature, it is also a resource for those who are interested in research on cross-cultural design. The book presents an overview of the dimensions of culture that have implications for human information processing and affective response. It examines a set of user interface design guidelines grouped into five areas: language, use of color, icons and images, navigation, and information architecture. Also, it addresses physical ergonomics and anthropometry issues. The text translates theory and guidelines into a practical methodology and discusses how to integrate methods of cross-cultural design into a standard engineering process for product development. The authors review and reappraise theories, models, principles, and techniques for design of IT products and services that will be marketed globally. They provide guidelines for user interface design across North American, Asian, and other cultures. Applying the guidelines within the methodological framework provided will enhance the usability and effectiveness of the IT product or service, and contribute to greater user satisfaction, increased productivity, higher sales, and lower product support costs.

An exploration of how ergonomics can contribute to the solution of important societal and engineering challenges, Advances in Social and Organizational Factors discusses the optimization of sociotechnical systems, including their organizational structures, policies, and processes. It includes coverage of communication, crew resource management, work design, design of working times, teamwork, participatory design, community ergonomics, cooperative work, new work paradigms, organizational culture, virtual organizations, telework, and quality management. The book provides research on urban infrastructures and how to shape urban spaces, including stadiums and museums. It covers warning systems in cars, voice-based interfaces, and the positive effects on manufacturing processes available from health informatics and management systems. Several chapters examine the role human factors can play in counter-terrorism efforts and in interpreting deceptive behaviors. They provide suggestions on how to improve enterprise resource planning systems and stress the importance of lifelong learning, personalized learning, and work-life balance. The book also highlights issues with special populations, detailing how to design and adapt products and work situations for these groups. In addition to exploring the challenges faced in optimizing sociotechnical systems, the book underlines themes that play a role in all the challenges and how they are linked to each other. It concludes with an exploration of emotional ergonomics and the important positive effects of making people happy and healthy. With chapter authors from around the globe, the book supplies a broad look at current challenges and possible solutions.

An examination of the various types of human-modeled technology, Advances in Applied Human Modeling and Simulation not only covers the type of models available, but how they can be applied to solve specific problems. These models provide a representation of some human aspects that can be inserted into simulations or virtual environments and facilitate prediction of safety, satisfaction, usability, performance, and sustainability. Topics include: Anthropometry and human functional data Biomechanics, occupational safety, comfort and discomfort Biometric authentications Driving safety and human performance Enhancing human capabilities through aids or training Fuzzy systems and neural computing Human behavior and risk assessment modeling Integrating software with humans and systems International cooperation in education and engineering research Intelligent agents in decision training Intelligent data and text mining Machine learning and human factors Modeling physical aspects of work Monitoring systems and human decision Psychophysiological indicators of emotion Resilience engineering and human reliability Scenario-based performance in distributed enterprises Special populations Sustainability, earth sciences and engineering System-of-systems architecting and engineering Verification and validation Virtual interactive design and assessment The math and science provides a foundation for visualizations that can facilitate decision making by technical experts, management or those responsible for public policy. In considering a systems perspective and decisions that affect performance, these models provide opportunities for an expanded role of engineers and HF/E specialist

Successful interaction with products, tools, and technologies depends on usable designs, accommodating the needs of potential users and does not require costly training. In this context, Advances in Usability Evaluation Part I discusses emerging concepts, theories, and applications of human factors knowledge focusing on the discovery and understanding of human interaction with products and systems for their improvement. The book covers devices and their interfaces, focusing on optimization of user devices and emphasizing visual and haptic feedback. It then discusses user studies, exploring the limits and capabilities of special populations, particularly the elderly, which can influence the design. It also examines the effect of changes in force and kinematics, physiology, cognitive performance, in the design of consumer products, tools and workplaces. Examining a variety of user-centered evaluation approaches, the concluding chapters details methods for developing products that can improve safety and human performance and at same time, the efficiency of the system. It reports on usability evaluations for different kinds of products and technologies, particularly for cellular phones, earphones, earphone controls, mattresses and pillows, package and professional tools, and service systems. The book provides new methods that enhance performance, expand capabilities, and optimize the fit between people and technology.

Preparation and Restoration is the second volume of Resilience Engineering Perspectives within the Ashgate Studies in Resilience Engineering series. In four sections, it broadens participation of the field to include policy and organization studies, and articulates aspects of resilience beyond initial definitions: - Policy and Organization explores public policy and organizational aspects of resilience and how they aid or inhibit preparation and restoration - Models and Measures addresses thoughts on ways to measure resilience and model systems to detect desirable, and undesirable, results - Elements and Traits examines features of systems and how they affect the ability to prepare for and recover from significant challenges - Applications and Implications examines how resilience plays out in the living laboratory of real-world operations. Preparation and Restoration addresses issues such as the nature of resilience; the similarities and differences between resilience and traditional ideas of system performance; how systems cope with varying demands and sometimes succeed and sometimes fail; how an organization's ways of preparing before critical events can enable or impede restoration; the trade-offs that are needed for systems to operate and survive; instances of brittle or resilient systems; how work practices affect resilience; the relationship between resilience and safety; and what improves or erodes resilience. This volume is valuable reading for those who create and operate systems that must not only survive, but thrive, in the face of challenge.

Focusing on how a machine "feels" and behaves while operating, Machine Elements: Life and Design seeks to impart both intellectual and emotional comprehension regarding the "life" of a machine. It presents a detailed description of how machines elements function, seeking to form a sympathetic attitude toward the machine and to ensure its wellbeing through more careful and proper design. The book is divided into three sections for accessibility and ease of comprehension. The first section is devoted to microscopic deformations and displacements both in permanent connections and within the bodies of stressed parts. Topics include relative movements in interference fit connections and bolted joints, visual demonstrations and clarifications of the phenomenon of stress concentration, and increasing the load capacity of parts using prior elasto-plastic deformation and surface plastic deformation. The second part examines machine elements and units. Topics include load capacity calculations of interference fit connections under bending, new considerations about the role of the interference fit in key joints, a detailed examination of bolts loaded by eccentrically applied tension forces, resistance of cylindrical roller bearings to axial displacement under load, and a new approach to the choice of fits for rolling contact bearings. The third section addresses strength calculations and life prediction of machine parts. It includes information on the phenomena of static strength and fatigue; correlation between calculated and real strength and safety factors; and error migration.

This book focuses exclusively on ergonomics in the design and use of hand tools. Hand tools have been an integral supplement to the human hand since the beginning of civilization. Recently, they have been pinpointed as a prominent cause of workplace disease. Cumulative Trauma Disorders such as Tendonitus, Carpal Tunnel Syndrome, and Raynaud's Syndrome are caused by the specialization of motion employed when using a screw driver, the shock to the hand and wrist when a hammer strikes a nail, or the vibration of a power saw. Ergonomics and Safety in Hand Tool Design explores the relationship between Biomechanics, Safety, and Ergonomics allowing the reader to recognize, evaluate, and control ergonomic risk factors and improve hand tool design. After a history of hand tool use and design, the book is broken down by the various disciplines as they apply to hand tools, taking a broad approach. The author gives special attention to safe design and use, illustrated with detailed diagrams. The text serves as a guide to the human factors in safety and ergonomics for safety professionals.