Hybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System
Cyber-Physical-Human System (CPHS) is receiving increasing attention as an interrelated system that integrates computing, physical, and human resources. Different from existing computing paradigms, CPHS generally comprises heterogeneous software and hardware resources from multiple resource provider...
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2021
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oai:doaj.org-article:a8b008c037904520af49db18f5ad354e2021-11-15T01:19:48ZHybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System1875-905X10.1155/2021/3231626https://doaj.org/article/a8b008c037904520af49db18f5ad354e2021-01-01T00:00:00Zhttp://dx.doi.org/10.1155/2021/3231626https://doaj.org/toc/1875-905XCyber-Physical-Human System (CPHS) is receiving increasing attention as an interrelated system that integrates computing, physical, and human resources. Different from existing computing paradigms, CPHS generally comprises heterogeneous software and hardware resources from multiple resource providers and allows interaction among them. The existing research on resource scheduling either focuses on traditional computing resources without consideration of physical environmental factors or is limited to specific application fields, making it difficult to promote and apply across domains. In this paper, we design and implement an application-independent CPHS resource scheduling platform based on a self-defined hybrid resource model. The platform provides a complete instantiation environment for all kinds of CPHS resources and their interactions and supports flexible customization of various resource scheduling strategies. We have injected several different resource scheduling policies into this platform, and the execution results are in line with expectations. The platform is extended to be implemented based on mainstream technologies that have been widely practiced, and the code is open source.Jianyong ZhuYang WangXiaoqiang YuHindawi LimitedarticleTelecommunicationTK5101-6720ENMobile Information Systems, Vol 2021 (2021) |
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Telecommunication TK5101-6720 |
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Telecommunication TK5101-6720 Jianyong Zhu Yang Wang Xiaoqiang Yu Hybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System |
description |
Cyber-Physical-Human System (CPHS) is receiving increasing attention as an interrelated system that integrates computing, physical, and human resources. Different from existing computing paradigms, CPHS generally comprises heterogeneous software and hardware resources from multiple resource providers and allows interaction among them. The existing research on resource scheduling either focuses on traditional computing resources without consideration of physical environmental factors or is limited to specific application fields, making it difficult to promote and apply across domains. In this paper, we design and implement an application-independent CPHS resource scheduling platform based on a self-defined hybrid resource model. The platform provides a complete instantiation environment for all kinds of CPHS resources and their interactions and supports flexible customization of various resource scheduling strategies. We have injected several different resource scheduling policies into this platform, and the execution results are in line with expectations. The platform is extended to be implemented based on mainstream technologies that have been widely practiced, and the code is open source. |
format |
article |
author |
Jianyong Zhu Yang Wang Xiaoqiang Yu |
author_facet |
Jianyong Zhu Yang Wang Xiaoqiang Yu |
author_sort |
Jianyong Zhu |
title |
Hybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System |
title_short |
Hybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System |
title_full |
Hybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System |
title_fullStr |
Hybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System |
title_full_unstemmed |
Hybrid Resource Modeling and Scheduling Platform Based on Multisource Cooperation for Cyber-Physical-Human System |
title_sort |
hybrid resource modeling and scheduling platform based on multisource cooperation for cyber-physical-human system |
publisher |
Hindawi Limited |
publishDate |
2021 |
url |
https://doaj.org/article/a8b008c037904520af49db18f5ad354e |
work_keys_str_mv |
AT jianyongzhu hybridresourcemodelingandschedulingplatformbasedonmultisourcecooperationforcyberphysicalhumansystem AT yangwang hybridresourcemodelingandschedulingplatformbasedonmultisourcecooperationforcyberphysicalhumansystem AT xiaoqiangyu hybridresourcemodelingandschedulingplatformbasedonmultisourcecooperationforcyberphysicalhumansystem |
_version_ |
1718428941806469120 |