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水下体域网系统架构及关键技术

肖蛰水 陈发 方坤升 王巍 黄海宁

肖蛰水, 陈发, 方坤升, 等. 水下体域网系统架构及关键技术[J]. 水下无人系统学报, 2022, 30(6): 1-6 doi: 10.11993/j.issn.2096-3920.20220014
引用本文: 肖蛰水, 陈发, 方坤升, 等. 水下体域网系统架构及关键技术[J]. 水下无人系统学报, 2022, 30(6): 1-6 doi: 10.11993/j.issn.2096-3920.20220014
XIAO Zhe-shui, CHEN Fa, FANG Kun-sheng, WANG Wei, HUANG Hai-ning. System Architecture and Key Technologies of Underwater Body Area Network[J]. Journal of Unmanned Undersea Systems. doi: 10.11993/j.issn.2096-3920.20220014
Citation: XIAO Zhe-shui, CHEN Fa, FANG Kun-sheng, WANG Wei, HUANG Hai-ning. System Architecture and Key Technologies of Underwater Body Area Network[J]. Journal of Unmanned Undersea Systems. doi: 10.11993/j.issn.2096-3920.20220014

水下体域网系统架构及关键技术

doi: 10.11993/j.issn.2096-3920.20220014
详细信息
    作者简介:

    肖蛰水(1980-), 男, 高级工程师, 主要研究方向为水下特战信息装备

  • 中图分类号: TJ630; TN929.3

System Architecture and Key Technologies of Underwater Body Area Network

  • 摘要: 蛙人水下便携式特种装备的持续发展带动了智慧海洋跨介质物联网络的不断进步, 也使得水下体域网建设越来越受到各国的广泛关注。基于此, 文中探讨了水下体域网分层系统架构, 重点分析了水下体域网设计过程中所面临的网络标准化设计、信息稳健传输等热点问题, 给出了解决思路。文中工作可为蛙人水下体域网建设和优化提供参考。

     

  • 图  1  水下体域网系统组成示意图

    Figure  1.  Composition diagram of underwater body area network

    图  2  水下体域网架构图

    Figure  2.  Architecture of underwater body area network

    图  3  典型水下探测设备

    Figure  3.  Typical underwater detection equipment

    图  4  典型水下通信设备

    Figure  4.  Typical underwater communication equipment

    图  5  典型定位导航设备

    Figure  5.  Typical positioning and navigationr equipment

  • [1] Venkatasubramanian K K, Banerjee A, Gupta S K S. PSKA: Usable and Secure Key Agreement Scheme for Body Area Network[J]. IEEE Transactions on Information Technology in Biomedicine, 2010, 14(1): 60-68. doi: 10.1109/TITB.2009.2037617
    [2] 邹卫霞. 基于中国医用体域网频段的物理层方案设计及干扰分析[J]. 电子与信息学报, 2015, 37(2): 429-435.
    [3] Alavi S M, Walsh M J, Hayes M J. Robust Distributed Active Power Control Technique for IEEE 802.15. 4 Wireless Sensor Networks—A Quantitative Feedback Theory Approach[J]. Control Engineering Practice, 2009, 17(7): 805-814. doi: 10.1016/j.conengprac.2009.02.001
    [4] Lin S, Zhang J B, Zhou G, et al. ATPC: Adaptive Transmission Power Control for Wireless Sensor Networks[C]//Proceedings of the 4th International Conference on Embedded Networked Sensor Systems. New York NY United States: ACM, 2006: 223-236.
    [5] Masood M M Y, Ahmed G, Khan N M. Modifiedon Demand Transmission Power Control Strategy for Wireless Sensor Net Works[C]//4th IEEE International Conference on Information and Communication Technologies, Tokoyo: ICTD, 2010.
    [6] Quwaider M, Rao J, Biswas S, et al. Body-posture-based Dynamic Linkpower Control in Wearable Sensor Networks[J]. IEEE Communications Magazine, 2010, 48(7): 134-142. doi: 10.1109/MCOM.2010.5496890
    [7] IEEE Standard Association. IEEE Standard for Local and Metropolitan Area Net Works: Wireless Body Area Networks, Part15.6: 802.15.6-2012[S]. USA: IEEE Standard Association, 2012.
    [8] Otto C, Milenkovic A, Sander C, et al. System Architecture of a Wireless Body Area Sensor Network for Ubiquitous Health Monitoring[J]. Journal of Mobile Mutimedia, 2005, 1(4): 307:326.
    [9] 孙彦赞, 姜玉凤, 吴雅婷, 等. 基于改进式随机不完全着色算法的无线体域网干扰协调[J]. 电子信息学报, 2015(9): 2204-2210.

    Sun Yan-zan, Jiang Yu-feng, Wu Ya-ting, et al. Improved Random Incomplete Coloring for Interference Mitigation in Wireless Body Area Networks[J]. Journal of Electronics & Information Technology, 2015(9): 2204-2210.
    [10] 王静贤. 无线体域网间基于博弈论的干扰协调关键技术研究[D]. 北京: 北京邮电大学, 2018.
    [11] Kazemi R, Vesilo R, Dutkiewicz E, et al. Inter-network Interference Mitigation in Wireless Body Area Networks Using Power Control Games[C]//IEEE 2010 10th International Symposium on Communications and Information Technologies(ISCIT). Tokyo, Japan: IEEE, 2010: 81-86.
    [12] Ibarra E, Antonopoulos A, et al. Joint Power-QoS Control Scheme for Energy Harvesting Body Sensor Nodes[C]// Proceeding of International Conference on Communications (ICC). Istanbul: IEEE. 2011: 2133-2138.
    [13] 方勇军, 王云景, 喻锡成, 赵红旗, 刘勇. 潜水员水下心率实时监测系统的设计[J]. 医疗卫生装备, 2011(5): 13-14. doi: 10.3969/j.issn.1003-8868.2011.05.005

    Fang Yong-jun, Wang Yun-jing, Yu Xi-cheng, Zhao Hong-qi, Liu Yong. Design pf Real-time Heart Rate Monitoring for Underwater Diver[J]. Chinese Medical Equipment Journal, 2011(5): 13-14. doi: 10.3969/j.issn.1003-8868.2011.05.005
    [14] Xiao S, Dhamdhere A, Sivaraman V, et al. Transmission Power Control in Body Area Sensor Networks for Healthcare Monitoring[J]. IEEE Journal on Selected Areas in Communications, 2009, 27(1): 37-48. doi: 10.1109/JSAC.2009.090105
    [15] Stuart E, Moh M, Moh T S. Privacy and Security in Biomedical Applications of Wireless Sensor Networks[C]∥1st International Symposium on Applied Sciences in Biomedical and Gemmunication Technologies, Aalborg, Denmark: IEEE, 2008.
    [16] Bao S D, Zhang Y T. A Design Proposal of Security Architecture for Medical Body Sensor Networks[C]//International Workshop on Wearable and Implantable Body Sensor Networks. Cambridge, MA: IEEE, 2006.
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出版历程
  • 收稿日期:  2022-07-20
  • 录用日期:  2022-10-14
  • 修回日期:  2022-09-19
  • 网络出版日期:  2022-11-22

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