An architecture for distributed environment sensing with application to robotic cliff exploration

Vivek A. Sujan; Steven Dubowsky; Terry Huntsberger; Hrand Aghazarian; Yang Cheng; Paul Schenker

doi:10.1023/B:AURO.0000025792.60972.f2

An architecture for distributed environment sensing with application to robotic cliff exploration

Vivek A. Sujan, Steven Dubowsky, Terry Huntsberger, Hrand Aghazarian, Yang Cheng, Paul Schenker

Applied Research for Mobility Systems

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Future planetary exploration missions will use cooperative robots to explore and sample rough terrain. To succeed robots will need to cooperatively acquire and share data. Here a cooperative multi-agent sensing architecture is presented and applied to the mapping of a cliff surface. This algorithm efficiently repositions the systems' sensing agents using an information theoretic approach and fuses sensory information using physical models to yield a geometrically consistent environment map. This map is then distributed among the agents using an information based relevant data reduction scheme. Experimental results for cliff face mapping using the JPL Sample Return Rover (SRR) are presented. The method is shown to significantly improve mapping efficiency over conventional methods.

Original language	English
Pages (from-to)	287-311
Number of pages	25
Journal	Autonomous Robots
Volume	16
Issue number	3
DOIs	https://doi.org/10.1023/B:AURO.0000025792.60972.f2
State	Published - May 2004

Funding

The authors would like to acknowledge the support of the Jet Propulsion Laboratory, NASA under contract number 1216342.

Keywords

Cooperative robots
Data fusion
Information theory
Robot communication
Visual exploration

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10.1023/B:AURO.0000025792.60972.f2

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AU - Cheng, Yang

AU - Schenker, Paul

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AB - Future planetary exploration missions will use cooperative robots to explore and sample rough terrain. To succeed robots will need to cooperatively acquire and share data. Here a cooperative multi-agent sensing architecture is presented and applied to the mapping of a cliff surface. This algorithm efficiently repositions the systems' sensing agents using an information theoretic approach and fuses sensory information using physical models to yield a geometrically consistent environment map. This map is then distributed among the agents using an information based relevant data reduction scheme. Experimental results for cliff face mapping using the JPL Sample Return Rover (SRR) are presented. The method is shown to significantly improve mapping efficiency over conventional methods.

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An architecture for distributed environment sensing with application to robotic cliff exploration

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