Title :
Underwater Visual 3D SLAM Using a Bio-inspired System
Author :
Albring Guth, Felipe ; Silveira, Luan ; Amaral, Marcos ; Botelho, Silvia ; Drews, Paul
Author_Institution :
Comput. Sci. Center, Univ. Fed. do Rio Grande, Rio Grande, Brazil
Abstract :
Considering the various challenges in robotics, one of the most important concerns to a mobile robot build a map and estimate its location in an environment. The SLAM techniques build a map and simultaneously maintain the current location of a robot in the same time. Nowadays, probabilistic approaches dominate the field, anyway the last decade have witnessed important bio-inspired studies based on biological structures related to spatial navigation. Past and recent studies found place, head direction and grid cells, among others, related to the tasks of mapping and location in mammals. Continuous Attractor Neural Networks (CANN) are being proposed to simulate the SLAM performed by this brain structures. This work present a bio-inspired SLAM system to map a sub-aquatic 3D environment, through a simulation of an underwater robot equipped with a camera, using visual references to mimic the behavior of location tasks performed by mammals.
Keywords :
SLAM (robots); autonomous underwater vehicles; cameras; marine navigation; mobile robots; neurocontrollers; path planning; robot vision; CANN; SLAM techniques; bio-inspired SLAM system; biological structures; brain structures; camera; continuous attractor neural networks; location tasks mammal behavior; mobile robot; robot location; spatial navigation; subaquatic 3D environment mapping; underwater robot simulation; underwater visual 3D SLAM; visual references; Animals; Biological neural networks; Neurons; Simultaneous localization and mapping; Three-dimensional displays; Visualization; Bio-inspired; SLAM; Underwater;
Conference_Titel :
Computing and Automation for Offshore Shipbuilding (NAVCOMP), 2013 Symposium on
Conference_Location :
Rio Grande
DOI :
10.1109/NAVCOMP.2013.22
