Design Engineering for Industry 4.0 (DE4.0) represents the 'human-cyber-physical view of the systems realization ecosystem “that is necessary to accommodate the drivers of Industry 4.0 (IoX) and provide an open ecosystem for the realization of complex systems. Seamless integration of digital threads and digital twins throughout the product design, the development and fulfillment lifecycle; the ability to accommodate diverse and rapidly changing technologies; and the mechanisms to facilitate the creation of new opportunities for the design of products, processes, services, and systems are some of the desired characteristics of DE4.0." Jiao, R., Commuri, S. Panchal, J., Milisavljevic-Syed, J, Allen, J.K., Mistree, F. and Schaefer, D., "Design Engineering in the Age of Industry 4.0," ASME Journal of Mechanical Design, 143(7), 070801, 25 pages. In keeping with the Design Engineering 4.0 construct the authors describe architecting a computer platform to support human designers make decisions associated with the realization of complex engineered systems. The platform is designed to facilitate end-to-end digital integration, customization and personalization, agile collaboration networks, open innovation, co-creation and crowdsourcing, product servitization and anything-as-a-service. Recognizing that simulation models are abstractions of reality the authors opt for a satisficing strategy instead of an optimization strategy. They include fundamentals and then describe tools for architecting a knowledge-based platforms for decision support. Challenges associated with developing a computational platform for decision support for the realization of complex engineered systems in the context of Design Engineering 4.0 are identified. Constructs for formulating design decisions (e.g., selection, compromise, and coupled decisions), knowledge modelling schemes (e.g., ontologies and modular templates), diagrams for designing decision workflows (e.g., the PEI-X diagram), and some analytical methods for robust design under uncertainty are presented. The authors describe integrating the knowledge-based platform to architect a cloud-based platform for decision support promoting co-design and cloud-based design communication essential for mass collaboration and open innovation for Design Engineering 4.0. This book is a valuable resource for researchers, design engineers, and others working on pushing the boundary of digitized manufacturing to include Design Engineering 4.0 principles in designing products, processes, and services.
This book demonstrates the historical changes in early medieval China as seen in the tales of the supernatural—thematic transformation from traditional demonic retribution to Karmic retribution, from indigenous Chinese netherworld to Buddhist concepts of hell, and from the traditional Chinese savior to a new savior, Buddha. It also examines Buddhist imagery and the flourish of new motifs in the fantastic dreamworld and their relationship with Buddhism. This study relates the Youming lu to the development of popular Chinese Buddhist beliefs, attempting to single out ideas that differ from the beliefs found in Buddhist scriptures as well as miraculous tales written especially to promote Buddhism.
Together with the noted Tang dynasty tales, Song dynasty tales have long been highly valued and widely read in the Chinese world. As the first English translations of a selected collection of 12 Song dynasty tales, this book opens a window into the world of literature, culture, and the colorful lives of the royal house and common people in the 10th- to 13th-centuries. In addition to the translation and meticulous annotations, it offers a general introduction as well as commentaries on each tale.
Together with the noted Tang dynasty tales, Song dynasty tales have long been highly valued and widely read in the Chinese world. As the first English translations of a selected collection of 12 Song dynasty tales, this book opens a window into the world of literature, culture, and the colorful lives of the royal house and common people in the 10th- to 13th-centuries. In addition to the translation and meticulous annotations, it offers a general introduction as well as commentaries on each tale.
Design Engineering for Industry 4.0 (DE4.0) represents the 'human-cyber-physical view of the systems realization ecosystem “that is necessary to accommodate the drivers of Industry 4.0 (IoX) and provide an open ecosystem for the realization of complex systems. Seamless integration of digital threads and digital twins throughout the product design, the development and fulfillment lifecycle; the ability to accommodate diverse and rapidly changing technologies; and the mechanisms to facilitate the creation of new opportunities for the design of products, processes, services, and systems are some of the desired characteristics of DE4.0." Jiao, R., Commuri, S. Panchal, J., Milisavljevic-Syed, J, Allen, J.K., Mistree, F. and Schaefer, D., "Design Engineering in the Age of Industry 4.0," ASME Journal of Mechanical Design, 143(7), 070801, 25 pages. In keeping with the Design Engineering 4.0 construct the authors describe architecting a computer platform to support human designers make decisions associated with the realization of complex engineered systems. The platform is designed to facilitate end-to-end digital integration, customization and personalization, agile collaboration networks, open innovation, co-creation and crowdsourcing, product servitization and anything-as-a-service. Recognizing that simulation models are abstractions of reality the authors opt for a satisficing strategy instead of an optimization strategy. They include fundamentals and then describe tools for architecting a knowledge-based platforms for decision support. Challenges associated with developing a computational platform for decision support for the realization of complex engineered systems in the context of Design Engineering 4.0 are identified. Constructs for formulating design decisions (e.g., selection, compromise, and coupled decisions), knowledge modelling schemes (e.g., ontologies and modular templates), diagrams for designing decision workflows (e.g., the PEI-X diagram), and some analytical methods for robust design under uncertainty are presented. The authors describe integrating the knowledge-based platform to architect a cloud-based platform for decision support promoting co-design and cloud-based design communication essential for mass collaboration and open innovation for Design Engineering 4.0. This book is a valuable resource for researchers, design engineers, and others working on pushing the boundary of digitized manufacturing to include Design Engineering 4.0 principles in designing products, processes, and services.
This book demonstrates the historical changes in early medieval China as seen in the tales of the supernatural—thematic transformation from traditional demonic retribution to Karmic retribution, from indigenous Chinese netherworld to Buddhist concepts of hell, and from the traditional Chinese savior to a new savior, Buddha. It also examines Buddhist imagery and the flourish of new motifs in the fantastic dreamworld and their relationship with Buddhism. This study relates the Youming lu to the development of popular Chinese Buddhist beliefs, attempting to single out ideas that differ from the beliefs found in Buddhist scriptures as well as miraculous tales written especially to promote Buddhism.
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