Сomputer devices automatic synthesis as a service for FPGA-Based smart-sensors of cyber-physical systems
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Date
2016
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Publishing House of Lviv Polytechnic National University
Abstract
Present paper is dedicated to the problems of studying and developing the theoretical and methodological framework, algorithmic base and corresponding software
means to organize and realize the automatic synthesis of computer devices in the reconfigurable hardware platforms of the smart-sensors in cyber-physical systems with no human assistance. To solve this task, the following basic approaches will be used: a) a method of self-configuring of the computer system with reconfigurable logic; b) a “Software as a Service” software delivery model via a computer network; and c) an “Internet of Things” technology. The method of computer devices automatic synthesis in the reconfigurable hardware platforms of the smart sensors of the cyber-physical systems will be proposed. The clientserver protocol of information exchange between the reconfigurable hardware platforms of the cyber-physical system measuring and computing nodes will be developed for automatic creation of computer devices in them. On the basis of the above protocol, the technical requirements to realization will be formulated and the principles of design and the main algorithms of the software interface operation will be developed. The program interfaces of realizing the protocol of information exchange between the reconfigurable hardware platforms of the smart-sensors for automatic creation of computer devices will be modeled and the results of their implementation and testing will be demonstrated.
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Keywords
Cyber-Physical System, Field Programmable Gate Array, FPGA-Based Smart-Sensor, Self-Configuring, Software as a Service, Internet of Things
Citation
Melnyk V. Сomputer devices automatic synthesis as a service for FPGA-Based smart-sensors of cyber-physical systems / Viktor Melnyk, Ivan Lopit, Andrii Kit // Advances in Cyber-Physical Systems. – 2016. – Volume 1, number 2. – P. 103–118. – Bibliography: 46 titles.