TY - GEN
T1 - Development and Test of a Subsea Docking System Applied to an Autonomous Underwater Helicopter
AU - Cai, Chengye
AU - Rong, Zhenwei
AU - Xie, Xinyi
AU - Xu, Bo
AU - Zhang, Zhuoyu
AU - Wu, Zheyuan
AU - Si, Yulin
AU - Huang, Haocai
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - With the increasing demand for long-term underwater observation and operation of AUVs, the subsea docking system (SDS) as a solution has been extensively concerned. Now, an autonomous underwater helicopter (AUH), as a kind of disc-shaped AUV developed in near-seafloor observation and operation, is also eager for an approach to realize its long-term underwater observation operation mode. Therefore, this paper proposes an SDS applied to the AUH. Furthermore, for the SDS to achieve its long-term underwater operation, this paper also adds a communication link that an electrical-optical-mechanical (EOM) cable connects a communication buoy to the SDS. It can charge the SDS and realize the communication between the SDS and the outside world. Finally, we have completed the development of an SDS prototype and a graphical user interface (GUI). Through the tests in the water tank and Qiandao Lake, the SDS successfully assisted the AUH in docking with it and then succeeded in locking and charging the AUH. This study not only meets the needs of the AUH but also proves a feasible approach to realizing the long-term underwater operation of SDS.
AB - With the increasing demand for long-term underwater observation and operation of AUVs, the subsea docking system (SDS) as a solution has been extensively concerned. Now, an autonomous underwater helicopter (AUH), as a kind of disc-shaped AUV developed in near-seafloor observation and operation, is also eager for an approach to realize its long-term underwater observation operation mode. Therefore, this paper proposes an SDS applied to the AUH. Furthermore, for the SDS to achieve its long-term underwater operation, this paper also adds a communication link that an electrical-optical-mechanical (EOM) cable connects a communication buoy to the SDS. It can charge the SDS and realize the communication between the SDS and the outside world. Finally, we have completed the development of an SDS prototype and a graphical user interface (GUI). Through the tests in the water tank and Qiandao Lake, the SDS successfully assisted the AUH in docking with it and then succeeded in locking and charging the AUH. This study not only meets the needs of the AUH but also proves a feasible approach to realizing the long-term underwater operation of SDS.
KW - autonomous underwater vehicle
KW - subsea docking system
KW - underwater docking
KW - underwater residency
UR - http://www.scopus.com/inward/record.url?scp=85145775215&partnerID=8YFLogxK
U2 - 10.1109/OCEANS47191.2022.9977180
DO - 10.1109/OCEANS47191.2022.9977180
M3 - Conference Proceeding
AN - SCOPUS:85145775215
T3 - Oceans Conference Record (IEEE)
BT - OCEANS 2022 Hampton Roads
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2022 OCEANS Hampton Roads, OCEANS 2022
Y2 - 17 October 2022 through 20 October 2022
ER -