Underwater terrain-aided navigation system based on combination matching algorithm

Considering that the terrain-aided navigation (TAN) system based on iterated closest contour point (ICCP) algorithm diverges easily when the indicative track of strapdown inertial navigation system (SINS) is large, Kalman filter is adopted in the traditional ICCP algorithm, difference between matchi...

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Veröffentlicht in:	ISA transactions 2018-07, Vol.78, p.80-87
Hauptverfasser:	Li, Peijuan, Sheng, Guoliang, Zhang, Xiaofei, Wu, Jingqiu, Xu, Baochun, Liu, Xing, Zhang, Yao
Format:	Artikel
Sprache:	eng
Schlagworte:	Autonomous underwater vehicle Iterated closest contour point Kalman filter Terrain-aided navigation system
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creator	Li, Peijuan Sheng, Guoliang Zhang, Xiaofei Wu, Jingqiu Xu, Baochun Liu, Xing Zhang, Yao
description	Considering that the terrain-aided navigation (TAN) system based on iterated closest contour point (ICCP) algorithm diverges easily when the indicative track of strapdown inertial navigation system (SINS) is large, Kalman filter is adopted in the traditional ICCP algorithm, difference between matching result and SINS output is used as the measurement of Kalman filter, then the cumulative error of the SINS is corrected in time by filter feedback correction, and the indicative track used in ICCP is improved. The mathematic model of the autonomous underwater vehicle (AUV) integrated into the navigation system and the observation model of TAN is built. Proper matching point number is designated by comparing the simulation results of matching time and matching precision. Simulation experiments are carried out according to the ICCP algorithm and the mathematic model. It can be concluded from the simulation experiments that the navigation accuracy and stability are improved with the proposed combinational algorithm in case that proper matching point number is engaged. It will be shown that the integrated navigation system is effective in prohibiting the divergence of the indicative track and can meet the requirements of underwater, long-term and high precision of the navigation system for autonomous underwater vehicles. •The integrated navigation system proposed can meet the requirements of maintaining accuracy navigation.•AUV position error is substantially reduced with the new method, and the divergent phenomenon is prevented.•The simulation results show that the method proposed can be very useful to improve positioning accuracy.
doi_str_mv	10.1016/j.isatra.2017.12.018
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subjects	Autonomous underwater vehicle Iterated closest contour point Kalman filter Terrain-aided navigation system
title	Underwater terrain-aided navigation system based on combination matching algorithm
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