A Low-Cost Testbed of Underwater Mobile Sensing Network

A Low-Cost Testbed of Underwater Mobile Sensing Network

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摘要 Comprised by a swarm of acoustically linked and cooperative autonomous underwater vehicles(AUVs) with onboard sensors,an underwater mobile sensing network(UMSN) will be a complementary means to fixed observatory networks,e.g.seafloor observatory networks and moored buoy arrays.It has obvious advantages over a single large AUV in higher efficiency due to parallel observation,stronger robustness to vehicle failures and lower cost.Although an UMSN can be viewed as a counterpart of wireless mobile sensing networks for air and terrestrial applications,it is much more challenging due to poor performance of underwater acoustic communication, poor performance of underwater positioning and high degree of uncertainty in vehicle dynamics and underwater environment.In order to verify key technologies involved in an UMSN,e.g.cooperation of multi-AUVs based on acoustic communication,a low cost testbed has been developed for experimental study.The design of both hardware and software is introduced.Also the results of a functional test for verification of the effectiveness of the testbed are presented. Comprised by a swarm of acoustically linked and cooperative autonomous underwater vehicles （AUVs） with onboard sensors, an underwater mobile sensing network （UMSN） will be a complementary means to fixed observatory networks, e.g. seafloor observatory networks and moored buoy arrays. It has obvious advantages over a single large AUV in higher efficiency due to parallel observation, stronger robustness to vehicle failures and lower cost. Although an UMSN can be viewed as a counterpart of wireless mobile sensing networks for air and terrestrial applications, it is much more challenging due to poor performance of underwater acoustic communication, poor performance of underwater positioning and high degree of uncertainty in vehicle dynamics and underwater environment. In order to verify key technologies involved in an UMSN, e.g. cooperation of multi-AUVs based on acoustic communication, a low cost testbed has been developed for experimental study. The design of both hardware and software is introduced. Also the results of a functional test for verification of the effectiveness of the testbed are presented.

作者尚桂杨冯正平连琏

机构地区 School of Naval Architecture

出处《Journal of Shanghai Jiaotong university(Science)》 EI 2011年第4期502-507,共6页 上海交通大学学报（英文版）

基金 the National High Technology Research and Development Program(863) of China (No.2006AA09Z233)

关键词 underwater mobile sensing network(UMSN) autonomous underwater vehicle(AUV) TESTBED coordination and cooperation control underwater mobile sensing network （UMSN）, autonomous underwater vehicle （AUV）, testbed, coordination and cooperation control

分类号 TP249 [自动化与计算机技术—检测技术与自动化装置]

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1FUJISHIMA A, HONDA K. Electrochemical photolysis of water at a semiconductor electrode[ J ]. Nature, 1972, 238: 37 - 40.
2OLLIS D F, PELIZZETTI E, SERPONE N. Destruction of water contaminants [ J ]. Environ Sci Technol, 1991, 25(9): 1523 - 1526.
3OLLIS D F, AL - EKABI H. Photocatalytic Purification and Treatment of Water and Air [ M ]. Amsterdam:Elsevier Science Publishers, 1993.
4HIDAKA H, ZHAO J, PELIZETTI E, et al. Photodegradation of surfactants. 8. comparison of photocatalytic processes betweenanionic sodium dodecylbezensulfonate and cationic benzyidodecyldimethylammonlum chloride onthe TiO2 surface [ J ]. J Phys Chem, 1992,96
5ROSS H,BENDING J, HECHT S. Sensitized photocatalytical oxidation of terbutylazine [ J ]. Sol Energy Mater Sol Cells, 1994, 33:475 - 479.
6LI X Z, LIU H L, YUE P T. Photoelectrocatalytic oxida tion of rose bengal in aqueous solution using a Ti/TiO2 mesh electrode [ J ]. Environ Sci Technol, 2000, 34 (11) :4401-4406.
7BYME J A, EGGINS B R, BROWN N M D, et al. Immobilisation of TiO2 powder for the treatment of polluted water[J]. Appl Catal B,1998, 17:25 -29.
8CUI R X, Xu D M, YAN W S. Formation control of autonomous underwater vehicles under fixed topology [C] // Proc IEEE International Conference on Con- trol and Automation. Guangzhou, China: IEEE, 2007: 2913-2918.
9许真珍,封锡盛.多UUV协作系统的研究现状与发展[J].机器人,2007,29(2):186-192. 被引量：47
10LIU J K. Advanced PID control and MATLAB sim- ulation [M]. Beijing: Electronic Industry Publishing House, 2003.

二级参考文献29

1徐红丽,许真珍,封锡盛.基于局域网的多水下机器人仿真系统设计与实现[J].机器人,2005,27(5):423-425. 被引量：4
2Wooldridge M.多Agent系统引论[M].石纯一,译.北京:电子工业出版社,2003.
3Burgard W,Moors M,Stachniss C,et al.Coordinated multi-robot exploration[J].IEEE Transactions on Robotics,2005,21(3):376-386.
4Richer T J,Corbett D R.A self-organizing territorial approach to multi-robot search and surveillance[A].Proceedings of the 15th Australian Joint Conference on Artificial Intelligence[C].Canberra,Australia:The Australian National University,2002.724-732.
5Lemaire T,Alami R,Lacroix S.A distributed tasks allocation scheme in multi-UAV context[A].Proceedings of the 2004 IEEE International Conference on Robotics and Automation[C].Piscataway,NJ,USA:IEEE,2004.3622-3627.
6Schofield O.Ocean Research Interactive Observatory Networks[R].San Juan,Puerto Rico:Rutgem University,2004.
7Hanrahan C.Monterey Bay 2003 Experiment[EB/OL].http://www.mbari.org/aosn/.2004-11-02.
8Sousa J B,Pereira F L,Souto P F,et al.Distributed sensor and vehicle networked systems for environmental applications[A].Environment 2010:Situation and Perspectives for the European Union[C].Polo,Portugal:University ofPorto,2003.http://paginas.fe.up.pt/～lsts/lsts_www/files/env2010sensores.pdf.
9Byrne R,Eskridge S,Hurtado J,et al.Algorithms and Analysis for Underwater Vehicle Plume Tracing[R].USA:DARPA,2003.
10Schulz B,Hobson B,Kemp M,et al.Field results of multi-UUV missions using ranger micro-UUVS[A].Oceans Conference Record[C].Piscataway,NJ,USA:IEEE,2003.956-961.

共引文献47

1刘成胜,符敏.反水雷UUV发展技术[J].水雷战与舰船防护,2014,22(2):69-72. 被引量：2
2许真珍,李一平,封锡盛.一个面向异构多UUV协作任务的分层式控制系统[J].机器人,2008,30(2):155-159. 被引量：4
3张立川,刘明雍,徐德民,严卫生.多UUV协同导航与定位研究(英文)[J].系统仿真学报,2008,20(19):5342-5344. 被引量：16
4张鹏,何心怡,林杨.反水雷与UxV[J].舰船科学技术,2009,31(1):29-32. 被引量：8
5陈玮,吴泽伟,吴晓锋.UUV协同探测的现状与发展前景[J].舰船电子工程,2009,29(2):6-8. 被引量：7
6陈玮,吴泽伟,吴晓锋.水下无人平台协同探测行动过程[J].四川兵工学报,2009,30(6):36-40. 被引量：5
7张立川,徐德民,刘明雍,严卫生.基于移动长基线的多AUV协同导航[J].机器人,2009,31(6):581-585. 被引量：33
8张立川,刘明雍,徐德民,严卫生.基于水声传播延迟的主从式多无人水下航行器协同导航定位研究[J].兵工学报,2009,30(12):1674-1678. 被引量：28
9张立川,徐德民,刘明雍,严卫生.Cooperative navigation and localization for multiple UUVs[J].Journal of Marine Science and Application,2009,8(3):216-221. 被引量：3
10宋保维,朱信尧,曹永辉,梁庆卫.UUV海底停驻策略及其关键技术[J].鱼雷技术,2010,18(6):401-405. 被引量：14

1BI Yuanguo,Xuemin (Sherman) SHEN,ZHAO Hai.Explicit Rate Based Transmission Control Scheme in Vehicle-to-lnfrastructure Communication Networks[J].China Communications,2014,11(1):46-59. 被引量：2
2内置128MB Onboard Cache CCZ全新Summit SSD推出市场[J].数码时代,2009(6):88-88.
3陈煦蔚,冯正平.Formation Control of Underwater Mobile Sensing Networks[J].Journal of Shanghai Jiaotong university(Science),2009,14(5):590-592.
4你知道这些bed习语吗?[J].中学英语之友（新教材初二版）,2011(7):28-28.
5ZHANG Ping FENG Zhiyong HU Fei.BASIC THEORIES AND KEY TECHNOLOGIES IN NEXT GENERATION NETWORKS[J].China Communications,2015,12(10).
6Kevin Yin (Office of the CTO, Cisco Systems, Beijing 100022, P. R. China).Cloud Computing: Concept, Model, and Key Technologies[J].ZTE Communications,2010,8(4):21-26.
7Xing Xiaojiang Wang Jianli Li Mingdong.Services and Key Technologies of the Internet of Things[J].ZTE Communications,2010,8(2):26-29. 被引量：7
8Google浏览器无法使用扩展[J].电脑爱好者,2011(18):75-75.
9林昌龙,刘开周.基于贝叶斯估计的水下机器人罗盘故障检测[J].控制工程,2015,22(3):559-563. 被引量：1
10德州仪器达芬奇技术结合ObjectVideo OnBoard实现数字化智能视频监控[J].电子产品世界,2006,13(05X):90-90.

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A Low-Cost Testbed of Underwater Mobile Sensing Network

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