An Acoustic Communication Time Delays Compensation Approach for Master-Slave AUV Cooperative Navigation

An Acoustic Communication Time Delays Compensation Approach for Master-Slave AUV Cooperative Navigation

Time delay is a major problem in the acoustic communication technology. Considering such a background, a new dynamic model is proposed for an improved error estimation algorithm in this paper. And error propagation equations are constructed for an inertial navigation system/Doppler velocity log inte...

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Bibliographic Details
Published in:IEEE sensors journal Vol. 17; no. 2; pp. 504 - 513
Main Authors: Xiao, Guangdi, Wang, Bo, Deng, Zhihong, Fu, Mengyin, Ling, Yun
Format: Journal Article
Language:English
Published: IEEE 15-01-2017
Subjects:
Acoustic communication (telecommunication)
autonomous underwater vehicle (AUV)
Cooperative navigation
Delay effects
inertial navigation system (INS)
Master-slave
Mathematical model
Navigation
time delay
Time measurement
ultra-short baseline acoustic positioning system (USBL)
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Summary:Time delay is a major problem in the acoustic communication technology. Considering such a background, a new dynamic model is proposed for an improved error estimation algorithm in this paper. And error propagation equations are constructed for an inertial navigation system/Doppler velocity log integrated navigation system. The time delay problem is reconsidered for acoustic communication with an ultra-short baseline acoustic positioning system that uses a multi-autonomous underwater vehicle (AUV) cooperative navigation process in master-slave mode. The characteristics of time delays in acoustic communication are considered and the time delay is converted into a measurement bias within an observation equation for the slave AUV platform. Under the framework of a standard Kalman filter, an improved error estimation algorithm is presented to address the problem that occurs when random measurement bias exists in the dynamic linear system model. Based on the Monte Carlo method, the simulation results illustrate that compared with traditional methods, the error estimation algorithm proposed in this paper can effectively decrease positioning errors caused by time delays in acoustic communication.
ISSN:1530-437X
1558-1748
DOI:10.1109/JSEN.2016.2631478