A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation

A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation

Abstract The matching area selection algorithm is one of the key technologies for underwater gravity‐aided inertial navigation system, which directly affects the positioning accuracy and matching rate of underwater navigation. The traditional matching area selection algorithms usually use the statis...

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Main Authors: Chenglong Wang, Bo Wang, Zhihong Deng, Mengyin Fu
Format: Article
Language:English
Published: Wiley 2021-03-01
Series:IET Radar, Sonar & Navigation
Online Access:https://doi.org/10.1049/rsn2.12021
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spelling doaj-9a766d789ab34113986b87db3faab6442021-08-02T08:30:23ZengWileyIET Radar, Sonar & Navigation1751-87841751-87922021-03-0115325026010.1049/rsn2.12021A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigationChenglong Wang0Bo Wang1Zhihong Deng2Mengyin Fu3School of Automation Beijing Institute Technology Beijing People's Republic of ChinaSchool of Automation Beijing Institute Technology Beijing People's Republic of ChinaSchool of Automation Beijing Institute Technology Beijing People's Republic of ChinaNanjing University of Science and Technology Nanjing People's Republic of ChinaAbstract The matching area selection algorithm is one of the key technologies for underwater gravity‐aided inertial navigation system, which directly affects the positioning accuracy and matching rate of underwater navigation. The traditional matching area selection algorithms usually use the statistical characteristic parameters of gravity field. However, the traditional algorithms are difficult to reflect the spatial relation characteristic of gravity field, which always miss some latent matching areas with obvious change of gravity field. In order to solve this problem, the matching area selection algorithm based on co‐occurrence matrix is proposed. The proposed algorithm establishes gravity anomaly co‐occurrence matrix and extracts spatial relation characteristic parameters to reflect the gravity field. The comprehensive spatial characteristic parameter is built by entropy and is used to select the matching area by maximization of inter‐class variance. The experimental results show that the proposed algorithm can select more effective matching areas than the traditional algorithms.https://doi.org/10.1049/rsn2.12021
collection DOAJ
language English
format Article
sources DOAJ
author Chenglong Wang
Bo Wang
Zhihong Deng
Mengyin Fu
spellingShingle Chenglong Wang
Bo Wang
Zhihong Deng
Mengyin Fu
A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation
IET Radar, Sonar & Navigation
author_facet Chenglong Wang
Bo Wang
Zhihong Deng
Mengyin Fu
author_sort Chenglong Wang
title A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation
title_short A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation
title_full A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation
title_fullStr A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation
title_full_unstemmed A co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation
title_sort co‐occurrence matrix‐based matching area selection algorithm for underwater gravity‐aided inertial navigation
publisher Wiley
series IET Radar, Sonar & Navigation
issn 1751-8784
1751-8792
publishDate 2021-03-01
description Abstract The matching area selection algorithm is one of the key technologies for underwater gravity‐aided inertial navigation system, which directly affects the positioning accuracy and matching rate of underwater navigation. The traditional matching area selection algorithms usually use the statistical characteristic parameters of gravity field. However, the traditional algorithms are difficult to reflect the spatial relation characteristic of gravity field, which always miss some latent matching areas with obvious change of gravity field. In order to solve this problem, the matching area selection algorithm based on co‐occurrence matrix is proposed. The proposed algorithm establishes gravity anomaly co‐occurrence matrix and extracts spatial relation characteristic parameters to reflect the gravity field. The comprehensive spatial characteristic parameter is built by entropy and is used to select the matching area by maximization of inter‐class variance. The experimental results show that the proposed algorithm can select more effective matching areas than the traditional algorithms.
url https://doi.org/10.1049/rsn2.12021
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AT bowang acooccurrencematrixbasedmatchingareaselectionalgorithmforunderwatergravityaidedinertialnavigation
AT zhihongdeng acooccurrencematrixbasedmatchingareaselectionalgorithmforunderwatergravityaidedinertialnavigation
AT mengyinfu acooccurrencematrixbasedmatchingareaselectionalgorithmforunderwatergravityaidedinertialnavigation
AT chenglongwang cooccurrencematrixbasedmatchingareaselectionalgorithmforunderwatergravityaidedinertialnavigation
AT bowang cooccurrencematrixbasedmatchingareaselectionalgorithmforunderwatergravityaidedinertialnavigation
AT zhihongdeng cooccurrencematrixbasedmatchingareaselectionalgorithmforunderwatergravityaidedinertialnavigation
AT mengyinfu cooccurrencematrixbasedmatchingareaselectionalgorithmforunderwatergravityaidedinertialnavigation
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