Title :
Grid-based GA path planning with improved cost function for an over-actuated hover-capable AUV
Author :
Tanakitkorn, Kantapon ; Wilson, Philip A. ; Turnock, Stephen R. ; Phillips, Alexander B.
Author_Institution :
Fluid Struct. Interactions Res. Group, Univ. of Southampton, Southampton, UK
Abstract :
For an AUV to perform a long-range mission with its maximum endurance, its energy consumption during transit must be kept to a minimum. This paper presents an improved cost function for a grid-based genetic algorithm (GA) path planning in 2D static environments. The proposed function consists of energy consumption terms that are estimated according to dynamics of a hover-capable AUV - notably Delphin2 AUV. It seeks for a path that requires least effort for the vehicle to move along. A simulation was written in Matlab and the outcomes of the GA with the improved cost function are compared with the ones of a GA with an optimal distance approach as well as an A* approach. It is found that outcomes of an improved cost function require less energy compared with the other techniques.
Keywords :
autonomous underwater vehicles; genetic algorithms; path planning; robot dynamics; 2D static environments; A* approach; Delphin2 AUV; Matlab; energy consumption; grid-based GA path planning; grid-based genetic algorithm path planning; hover-capable AUV dynamics; improved cost function; long-range mission; maximum endurance; optimal distance approach; over-actuated hover-capable AUV; Biological cells; Cost function; Energy consumption; Genetic algorithms; Path planning; Propulsion; Vehicles; AUV; Autonomous Underwater Vehicle; Delphin2; Genetic Algorithm; Path Planning;
Conference_Titel :
Autonomous Underwater Vehicles (AUV), 2014 IEEE/OES
Print_ISBN :
978-1-4799-4345-6
DOI :
10.1109/AUV.2014.7054426
