Title :
Local Difference Probability (LDP)-Based Environment Adaptive Algorithm for Unmanned Ground Vehicle
Author :
Jeong, Pangyu ; Nedevschi, Sergiu
Author_Institution :
Tech. Univ. of Cluj-Napoca
Abstract :
This paper presents a new vision sensor-based road-following method for unmanned vehicles. Usually, the performance obtained with such methods is limited by several factors like image quality according to camera types (charge-coupled device CCD/CMOS), mounted camera position, stereo-/single-vision sensors, structured/unstructured environment, and image noise (illumination and shadow). Existing road-following algorithms for unmanned vehicles perform well, given a certain number of satisfied constraints, so there is a lack of flexibility in their use in real-world situations. The currently proposed local-difference-probability-based method overcomes most of these constraints assuring flexibility in real-world environments
Keywords :
adaptive control; remotely operated vehicles; robot vision; sensors; charge-coupled device CCD/CMOS; environment adaptive algorithm; local difference probability; mounted camera position; unmanned ground vehicle; vision sensor-based road-following method; Adaptive algorithm; CMOS image sensors; Cameras; Charge coupled devices; Charge-coupled image sensors; Image quality; Land vehicles; Lighting; Road vehicles; Working environment noise; Local difference probability (LDP); road following; unmanned vehicle;
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2006.880636
