Research on Safety Control Strategy of Ship Monitoring System Based On Information Flow Control between Heterogeneous Networks
Authors: 
Xiao Jianbo, Zhang Qiaobin, Nie WeiAuthors Info & Claims
Pages 267 - 270
Abstract
In the design of ship monitoring system, it is usually necessary to set aside the test interface. How to ensure the general nature of the test interface and the security of the monitoring system is the problem of system design. Firstly, the central control system of a certain type of ship propulsion system and the communication protocol of monitoring system are analyzed. And then a data conversion system based on heterogeneous networks is designed and implemented. The test interface of the data conversion system is developed based on Ethernet protocol, the data conversion between the 1553B bus and Ethernet network is achieved. A safety control strategy of ship monitoring system based on information flow control between heterogeneous networks is proposed. The data conversion between 1553B bus and Ethernet network is monitored and analyzed. If the data flow is not defined as the predefined format, the conversion between heterogeneous networks can be cut off automatically, which can ensure the safety of the monitoring system.
References
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Hu Jinhui, Hu Dabin, Xiao JianBo. Based on 1553B bus network to heterogeneous data conversion system design and realize [J]. Wuhan University Journal (Transportation Science and Engineering Edition), 2014, 38 (5), 1092--1096.
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Hu Dabin, Hu Jinhui, Xiao Jianbo. Data monitoring and analysis of 1553B bus control system for a certain type of ship control system [J]. Modern Electronic Technology, 2015, 38 (3): 40--44;
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.Xiong Ying. MIL-STD-1553B Bus Controller in the SST application [D]. Beijing: Graduate University of Chinese Academy of Sciences, 2002;
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Yang Chunying.1553B data bus design [J]. Ship Science and Technology, 1998 (5): 61--65.
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Yang Hongxiang.1553B data bus monitor and implement [D]. Beijing: Beijing Institute of Technology, 2003
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Liu Guishan, Hu Jun Cheng.1553B bus information flow design [J]. Journal of Beijing Institute of Technology, 2003, 23 (3):301--304.
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Published In
December 2020
597 pages
ISBN:9781450387828
DOI:10.1145/3444370
Copyright © 2020 ACM.
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In-Cooperation
- Sun Yat-Sen University
- CARLETON UNIVERSITY: INSTITUTE FOR INTERDISCIPLINARY STUDIES
- Beijing University of Posts and Telecommunications
- Guangdong University of Technology: Guangdong University of Technology
- Deakin University
Publisher
Association for Computing Machinery
New York, NY, United States
Publication History
Published: 04 January 2021
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- Research-article
- Research
- Refereed limited
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CIAT 2020
CIAT 2020: 2020 International Conference on Cyberspace Innovation of Advanced Technologies
December 4 - 6, 2020
Guangzhou, China
Acceptance Rates
CIAT 2020 Paper Acceptance Rate 94 of 232 submissions, 41%;
Overall Acceptance Rate 94 of 232 submissions, 41%
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