DocumentCode
26480
Title
Decentralized Extended Information Filter for Single-Beacon Cooperative Acoustic Navigation: Theory and Experiments
Author
Webster, Sarah E. ; Walls, Jeffrey M. ; Whitcomb, Louis L. ; Eustice, Ryan M.
Author_Institution
Appl. Phys. Lab., Univ. of Washington, Seattle, WA, USA
Volume
29
Issue
4
fYear
2013
fDate
Aug. 2013
Firstpage
957
Lastpage
974
Abstract
We report a decentralized extended information filter (DEIF) algorithm designed for single-beacon cooperative acoustic navigation of one or more client underwater vehicles. In single-beacon cooperative acoustic navigation, ranges and state information from a single reference source (the server) are used to improve localization and navigation of an underwater vehicle (the client). The ranges and state information are obtained using underwater acoustic modems and a synchronous-clock time-of-flight paradigm. Apart from the server´s acoustic data broadcasts, the client has no access to the server´s position or sensor measurements. We show that at the instance of each range measurement update, the DEIF algorithm yields identical results for the current vehicle state estimate as the corresponding centralized extended information filter (CEIF), which fully tracks the joint probability distribution between the server and client. We compare the state estimation results of the DEIF algorithm with that of a CEIF and three other filters reported in the literature. The evaluation is performed using both simulated data and an experimental dataset comprised of one surface craft and two autonomous underwater vehicles.
Keywords
Kalman filters; autonomous underwater vehicles; information filters; navigation; nonlinear filters; path planning; state estimation; CEIF algorithm; DEIF algorithm; autonomous underwater vehicles; centralized extended information filter algorithm; client underwater vehicles; decentralized extended information filter; joint probability distribution; marine robotics; range information; range measurement update; server acoustic data broadcasts; single-beacon cooperative acoustic navigation algorithm; state information; surface craft; synchronous-clock time-of-flight paradigm; underwater acoustic modems; underwater vehicle localization; underwater vehicle navigation; vehicle state estimation; Decentralized estimation; distributed robot systems; information filters; marine robotics; networked robots;
fLanguage
English
Journal_Title
Robotics, IEEE Transactions on
Publisher
ieee
ISSN
1552-3098
Type
jour
DOI
10.1109/TRO.2013.2252857
Filename
6504537
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