Open AccessComplete Coverage Path Planning in an Unknown Underwater Environment Based on D-S Data Fusion Real-Time Map Building
Author(s) -
Mingzhong Yan,
Daqi Zhu,
Simon X. Yang
Publication year - 2012
Publication title -
international journal of distributed sensor networks
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.324
H-Index - 53
eISSN - 1550-1477
pISSN - 1550-1329
DOI - 10.1155/2012/567959
Subject(s) - occupancy grid mapping , computer science , motion planning , real time computing , sensor fusion , obstacle , obstacle avoidance , path (computing) , underwater , dempster–shafer theory , data mining , noise (video) , artificial intelligence , mobile robot , computer network , robot , oceanography , political science , law , image (mathematics) , geology
A real-time map-building system is proposed for an autonomous underwater vehicle (AUV) to build a map of an unknown underwater environment. The system, using the AUV's onboard sensor information, includes a neurodynamics model proposed for complete coverage path planning and an evidence theoretic method proposed for map building. The complete coverage of the environment guarantees that the AUV can acquire adequate environment information. The evidence theory is used to handle the noise and uncertainty of the sensor data. The AUV dynamically plans its path with obstacle avoidance through the landscape of neural activity. Concurrently, real-time sensor data are fused into a two-dimensional (2D) occupancy grid map of the environment using evidence inference rule based on the Dempster-Shafer theory. Simulation results show a good quality of map-building capabilities and path-planning behaviors of the AUV. © 2012 Mingzhong Yan et al.
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