Sciweavers

ICRA
2007
IEEE

Robotic Electrolocation: Active Underwater Target Localization with Electric Fields

14 years 6 months ago
Robotic Electrolocation: Active Underwater Target Localization with Electric Fields
— We explore the capabilities of a robot designed to locate objects underwater through active movement of an electric field emitter and sensor apparatus. The robot is inspired by the biological phenomenon of active electrolocation, a sensing strategy found in two groups of freshwater fishes known to emit weak electric fields for target localization and communication. We characterize the performance of the robot using several types of automatic electrolocation controllers, objects, and water conditions. We demonstrate successful electrolocation both in the conditions in which it is naturally observed, in low conductivity water, as well as in conditions in which it is not observed, in water of ocean salinity. The belief of the position of the target is maintained via a particle filter and refined with each measurement.
James R. Solberg, Kevin M. Lynch, Malcolm A. MacIv
Added 03 Jun 2010
Updated 03 Jun 2010
Type Conference
Year 2007
Where ICRA
Authors James R. Solberg, Kevin M. Lynch, Malcolm A. MacIver
Comments (0)