Academic Journal of Engineering and Technology Science, 2019, 2(2); doi: 10.25236/AJETS.020043.
Weijiong Chen1, Yuejiao Sun2, *, Yu Liang2, Zewei Han1 and Junfang Su1
1 College of Ocean Science and Engineering, Shanghai Maritime University, Shanghai 201306, China
2 Merchant Marine College, Shanghai Maritime University, Shanghai 201306, China
*Corresponding author e-mail: [email protected]
In order to solve the problem of low efficiency and high cost which is caused by the poor accuracy of the drifting trajectory of the rescued object in maritime SAR ,this paper develops a AIS network communication buoy group for maritime search and rescue.Making full use of the data transmission and compilation functions of the micro control unit, the close-range information interaction function of AIS and the long-distance communication function of Beidou, we create a set of highly modular and low-cost maritime search and rescue buoys,which can realize the transition from 'Individual combat' to 'multi-soldier combat'. Experiments in key sea areas can supplement and correct the wind pressure drift coefficient, so that the prediction of drift trajectory is more accurate.
Maritime search and rescue, AIS networking, Buoy group, Prediction trajectory correction
Weijiong Chen, Yuejiao Sun, Yu Liang, Zewei Han and Junfang Su. Study on Buoys for Trajectory Prediction Simulation of Maritime Drifting Objects. Academic Journal of Engineering and Technology Science (2019) Vol. 2 Issue 2: 66-75. https://doi.org/10.25236/AJETS.020043.
[1] Liu Lei. Risk Analysis and Avoidance of Maritime Search and Rescue. Pearl River Water Transport, 2017 (17): 72-73.
[2] Xing Shengwei. Global optimization model and simulation study of sea stereo search [D]. Dalian: Dalian Maritime University, 2012.
[3] Wu Xiang. Research on methods to improve the probability of successful search in maritime search and rescue [D]. 2016.
[4] Hackett B, Breivik Ø, Wettre C. FORECASTING THE DRIFT OF OBJECTS AND SUBSTANCES IN THE OCEAN [C]. Eric P. Chassignet, Jacques Verron. Ocean Weather Forecasting: An Integrated View of Oceanography. Germany: Springer, 2006: 507-523.
[5] Lumpkin R, Özgökmen T, Centurioni L. Advances in the Application of Surface Drifters [EB/OL]. (2016-8-22) [2018-5-12] www.annualreviews.org.
[6] Yu Lizhong, Shan Guanglin. Surface drifting buoy and its tracking technology [J]. Ocean Technology, 1997 (2): 1-11.
[7] Breivik Ø, Allen A A, Maisondieu C, et al. Advances in search and rescue at sea [J]. Ocean Dynamics, 2013, 63: 83-88.
[8] Yang Yuewen, Shang Hongmei. Method for real-time tracking and monitoring of oil spill on the sea with surface drifting buoys [J]. Ocean Technology, 2007, 26 (2): 17-19.
[9] Li Wenbin, Zhang Shaoyong, Shang Hongmei, et al. Design of surface drifting buoy based on new generation Argos satellite system [J]. Ocean Technology, 2011, 30 (1): 1-5.
[10] Zhang Xiansheng, Tan Qiulin, Ding Liqiong, et al. Design of Beacon Based on Iridium System [J]. Journal of Computer Measurement and Control, 2013, 21 (10): 2804-2807.
[11] Zhao Ping. Oil spill tracking and positioning buoy device: China, CN101407249A [P]. 2008-11-25 [2018-4-21].
[12] Yang Rui, Gu Qun. Oil spill tracking buoy based on Beidou satellite [J]. Journal of Shanghai Maritime University, 2014, 35 (3): 23-27.
[13] Xu Mingchang. A fishery tracking buoy satellite positioning anti-theft device: China, CN107831507A [P]. 2017-10-24 [2018-4-25].
[14] Yin Cailing, He Haixing, Xue Rui, et al. Development of intelligent positioning buoy system for underwater high-speed target positioning [C] // Chinese Acoustics Society. Proceedings of 2016 National Acoustics Conference. Wuhan: Chinese Acoustics Society, 2016: 351 -354.
[15] Yu Lin, Song Jun, Zhou Kai. A drifting buoy device for search and rescue training: China, CN205680345U [P]. 2016-02-29 [2018-4-25].
[16] Gao Ting, Chen Hongwu, Zhang Shuai. Design of Alarm Terminal for Water Falling Personnel Based on Beidou Positioning [J]. Computer Engineering and Design. 2013, 34 (10): 3470-3474.
[17] Xu Chun, Cui Xuejie, Liu Chenglong. A drifting buoy: China, CN203767030 [P]. 2014-8-13 [2018-4-21].
[18] KONG Weiqi, YANG Zhiyong, MA Shangchang. Design and Implementation of Meteorological and Hydrological Drifting Buoy Based on Beidou Communication System [J]. Modern Electronic Technology, 2017, 40 (19): 160-163.
[19] Huang Xu, Zhang Wenwei, Wang Gang, et al. Communication control method for ocean surface drifting buoy based on Beidou satellite: China, CN107797119A [P]. 2017-09-05 [2018-4-25].
[20] Pei Liang, Sun Jinwei, Miao Bin, et al. A simulated humanoid drifting buoy for maritime search and rescue training: China, CN203149981U [P]. 2013-04-03 [2018-4-25].
[21] Subbaraya S, Breitenmoser A, Molchanov A, et al. Design of Lagrangian Drifters for Ocean Monitoring [J]. IEEE ROBOTICS & AUTOMATION MAGAZINE, 2016, 3: 2-13.