Title :
A tracking control method of ASV following AUV
Author :
Ji Daxiong ; Ren Shenzhen ; Zheng Rong ; Yi Ruiwen ; Zhao HongYu ; Lin Yang
Author_Institution :
State Key Lab. of Robot., Shenyang Inst. of Autom., Shenyang, China
Abstract :
A method using autonomous surface vehicle (ASV) is presented in order to track autonomous surface vehicle (AUV). This method uses tracking control based on chasing activity. The heading and speed of ASV is automatically adjusted according to position and speed of underwater robot. And the safe domain of ASV which is not allowed to get out of is built to avoid danger. Sample points are updated dynamically to predict possible position of AUV for stable tracking, in the condition of broken communication which introduces the unknown position. The lake experiment shows that the ASV can autonomously track AUV which trajectory is unknown with stability and continuity by the proposed algorithm in the environment with complex acoustic communication and the results is satisfactory.
Keywords :
autonomous underwater vehicles; trajectory control; velocity control; ASV heading; ASV speed; AUV; acoustic communication; autonomous surface vehicle; autonomous underwater vehicle; broken communication condition; chasing activity; continuity; lake experiment; stability; tracking control method; underwater robot position; underwater robot speed; Acoustics; Lakes; Modems; Robots; Sea surface; Trajectory; Vehicles; autonomous surface vehicle; autonomous tracking; dynamic prediction; safe area; underwater robot;
Conference_Titel :
Oceans - San Diego, 2013
Conference_Location :
San Diego, CA
