Title :
An underwater robotic testbed for multi-vehicle control
Author :
Kitts, Christopher ; Adamek, Thomas ; Vlahos, Michael ; Mahacek, Anne ; Poore, Killian ; Guerra, Jorge ; Neumann, Michael ; Chin, Matthew ; Rasay, Mike
Author_Institution :
Robotic Syst. Lab., Santa Clara Univ., Santa Clara, CA, USA
Abstract :
The PVC-ROV underwater robot testbed is a low-cost, three vehicle system designed to support research into multi-robot control techniques. Each vehicle is composed of a PVC frame with bilge-pump motors, a central microcontroller, and hobby-class sensing and power components. In addition, each vehicle is tethered to a surface buoy by a 15 meter tether and wirelessly exchanges data with an off-board, Matlab-based control program; an acoustic tracking system simultaneously tracks the position of each vehicle. Use of the testbed has begun with demonstration of two-vehicle cluster space control, a specific control technique developed by researchers in Santa Clara University´s Robotic Systems Laboratory. This paper reviews the design of the PVC-ROV testbed and presents initial results in using the testbed to demonstrate the cluster control technique in an underwater environment.
Keywords :
autonomous underwater vehicles; multi-robot systems; PVC-ROV underwater robot testbed; cluster control technique; multirobot control techniques; multivehicle control; three vehicle system; two-vehicle cluster space control; underwater environment; Aerospace electronics; Educational institutions; Mobile robots; Robot kinematics; Robot sensing systems; Vehicles; duster space; experimental testbed; multi-robot control; underwater robot;
Conference_Titel :
Autonomous Underwater Vehicles (AUV), 2014 IEEE/OES
Print_ISBN :
978-1-4799-4345-6
DOI :
10.1109/AUV.2014.7054418
