TY - BOOK ID - 94110818 TI - Transdisciplinary Systems Engineering : Exploiting Convergence in a Hyper-Connected World PY - 2018 SN - 9783319621845 331962184X 3319621831 PB - Cham : Springer International Publishing : Imprint: Springer, DB - UniCat KW - Industrial economics KW - Materials sciences KW - Applied physical engineering KW - Engineering sciences. Technology KW - Plant and equipment KW - Production management KW - Artificial intelligence. Robotics. Simulation. Graphics KW - fabrieken KW - mechatronica KW - DFMA (design for manufacture and assembly) KW - industriële robots KW - storytelling KW - IoT (Internet of Things) KW - automatisering KW - productie KW - industriële marketing KW - machines KW - kwaliteitscontrole KW - ingenieurswetenschappen KW - Engineering design. KW - Control engineering. KW - Robotics. KW - Mechatronics. KW - Quality control. KW - Reliability. KW - Industrial safety. KW - Engineering economics. KW - Engineering economy. KW - Manufactures. KW - Engineering Design. KW - Control, Robotics, Mechatronics. KW - Quality Control, Reliability, Safety and Risk. KW - Engineering Economics, Organization, Logistics, Marketing. KW - Manufacturing, Machines, Tools, Processes. KW - Manufactured goods KW - Manufactured products KW - Products KW - Products, Manufactured KW - Commercial products KW - Manufacturing industries KW - Economy, Engineering KW - Engineering economics KW - Industrial engineering KW - Industrial accidents KW - Industries KW - Job safety KW - Occupational hazards, Prevention of KW - Occupational health and safety KW - Occupational safety and health KW - Prevention of industrial accidents KW - Prevention of occupational hazards KW - Safety, Industrial KW - Safety engineering KW - Safety measures KW - Safety of workers KW - Accidents KW - System safety KW - Dependability KW - Trustworthiness KW - Conduct of life KW - Factory management KW - Reliability (Engineering) KW - Sampling (Statistics) KW - Standardization KW - Quality assurance KW - Quality of products KW - Mechanical engineering KW - Microelectronics KW - Microelectromechanical systems KW - Automation KW - Machine theory KW - Control engineering KW - Control equipment KW - Control theory KW - Engineering instruments KW - Programmable controllers KW - Design, Engineering KW - Engineering KW - Industrial design KW - Strains and stresses KW - Prevention KW - Design UR - https://www.unicat.be/uniCat?func=search&query=sysid:94110818 AB - This book explores the ways that disciplinary convergence and technological advance are transforming systems engineering to address gaps in complex systems engineering: Transdisciplinary Systems Engineering (TSE). TSE reaches beyond traditional disciplines to find connections—and this book examines a range of new methods from across such disparate areas of scholarship as computer science, social science, human studies, and systems design to reveal patterns, efficiencies, affordances, and pathways to intuitive design. Organized to serve multiple constituencies, the book stands as an ideal textbook supplement for graduate courses in systems engineering, a reference text for program managers and practicing engineers in all industries, and a primary source for researchers engaged in multidisciplinary research in systems engineering and design. Introduces a bold, new vision of where model-based systems architecting and engineering is headed; Maximizes reader understanding of recent advances in social networks, collaboration technologies, interactive storytelling, virtual worlds, and systems design that enable transdisciplinary systems engineering; Illustrates convergence among disciplines across social, human, and applied sciences with robust examples;  Facilitates creation of new courses in systems architecting and engineering by structuring each chapter as an independent resource, allowing the content to be presented in order of academic need. Azad Madni has eloquently and substantively addressed one of the most important issues facing 21st Century systems engineering and design. The author makes it clear that an environment of autonomous systems, system of systems, and the internet of things will require that we are able to apply more than math and science to solve thorny problems. They will necessitate that systems engineers and designers have an understanding of the intricate interactions that can exist between technology and humans. John Brooks Slaughter, Ph.D., P.E., NAE Professor of Education and Engineering University of Southern California President Emeritus, Occidental College Chancellor Emeritus, U. of Maryland. ER -