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Systems Architecture of Avalanche Prevention and Relief Cloud Applications and Services IoT System
William S. Chao
其他書名
General Systems Theory 2. 0 at Work
出版
CreateSpace Independent Publishing Platform
, 2016-12-14
主題
Computers / Distributed Systems / General
ISBN
1541125711
9781541125711
URL
http://books.google.com.hk/books?id=5g8JMQAACAAJ&hl=&source=gbs_api
註釋
A system is complex that it comprises multiple views such as strategy/version n, strategy/version n+1, concept, analysis, design, implementation, structure, behavior, and input/output data views. Accordingly, a system is defined as a set of interacting components forming an integrated whole of that system's multiple views.Since structure and behavior views are the two most prominent ones among multiple views, integrating the structure and behavior views is a method for integrating multiple views of a system. In other words, structure-behavior coalescence (SBC) is a single model (model singularity) approach which results in the integration of multiple views. Therefore, it is concluded that the SBC architecture is so proper to model the multiple views of a system.In this book, we use the SBC architecture description language (SBC-ADL) to describe and represent the systems architecture of Avalanche Prevention and Relief Cloud Applications and Services IoT System (APRCASIS). An architecture description language is a special kind of system model used in defining the architecture of a system. SBC-ADL uses six fundamental diagrams to formally grasp the essence of a system and its details at the same time. These diagrams are: a) architecture hierarchy diagram, b) framework diagram, c) component channel diagram, d) component connection diagram, e) structure-behavior coalescence diagram, and f) interaction flow diagram.Systems architecture is on the rise. By this book's introduction and elaboration of the systems architecture of APRCASIS, all readers may understand clearly how the SBC-ADL helps architects effectively perform architecting, in order to synergistically construct the fruitful systems architecture.