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Improving visual place recognition performance by maximising complementarity

Improving visual place recognition performance by maximising complementarity
Improving visual place recognition performance by maximising complementarity
Visual place recognition (VPR) is the problem of recognising a previously visited location using visual information. Many attempts to improve the performance of VPR methods have been made in the literature. One approach that has received attention recently is the multi-process fusion where different VPR methods run in parallel and their outputs are combined in an effort to achieve better performance. The multi-process fusion, however, does not have a well-defined criterion for selecting and combining different VPR methods from a wide range of available options. To the best of our knowledge, this paper investigates the complementarity of state-of-the-art VPR methods systematically for the first time and identifies those combinations which can result in better performance. The letter presents a well-defined framework which acts as a sanity check to find the complementarity between two techniques by utilising a McNemar's test-like approach. The framework allows estimation of upper and lower complementarity bounds for the VPR techniques to be combined, along with an estimate of maximum VPR performance that may be achieved. Based on this framework, results are presented for eight state-of-the-art VPR methods on ten widely-used VPR datasets showing the potential of different combinations of techniques for achieving better performance.
Hidden Markov models, Image recognition, Visualization, Stacking, Sensors, Measurement, Image sensors, Visual place recognition, localization, navigation, complementarity, multi-process fusion
2377-3766
5976-5983
Waheed, Maria
23c4803f-193f-47d2-8767-197b1d082c35
Milford, Michael
9edf5ef3-4a6a-4d05-aec2-6146c00cd407
McDonald-Maier, Klaus
4429a771-384b-4cc6-8d45-1813c3792939
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
Waheed, Maria
23c4803f-193f-47d2-8767-197b1d082c35
Milford, Michael
9edf5ef3-4a6a-4d05-aec2-6146c00cd407
McDonald-Maier, Klaus
4429a771-384b-4cc6-8d45-1813c3792939
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7

Waheed, Maria, Milford, Michael, McDonald-Maier, Klaus and Ehsan, Shoaib (2021) Improving visual place recognition performance by maximising complementarity. IEEE Robotics and Automation Letters, 6 (3), 5976-5983. (doi:10.1109/LRA.2021.3088779).

Record type: Article

Abstract

Visual place recognition (VPR) is the problem of recognising a previously visited location using visual information. Many attempts to improve the performance of VPR methods have been made in the literature. One approach that has received attention recently is the multi-process fusion where different VPR methods run in parallel and their outputs are combined in an effort to achieve better performance. The multi-process fusion, however, does not have a well-defined criterion for selecting and combining different VPR methods from a wide range of available options. To the best of our knowledge, this paper investigates the complementarity of state-of-the-art VPR methods systematically for the first time and identifies those combinations which can result in better performance. The letter presents a well-defined framework which acts as a sanity check to find the complementarity between two techniques by utilising a McNemar's test-like approach. The framework allows estimation of upper and lower complementarity bounds for the VPR techniques to be combined, along with an estimate of maximum VPR performance that may be achieved. Based on this framework, results are presented for eight state-of-the-art VPR methods on ten widely-used VPR datasets showing the potential of different combinations of techniques for achieving better performance.

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e-pub ahead of print date: 17 June 2021
Published date: July 2021
Keywords: Hidden Markov models, Image recognition, Visualization, Stacking, Sensors, Measurement, Image sensors, Visual place recognition, localization, navigation, complementarity, multi-process fusion
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Identifiers

Local EPrints ID: 473464
URI: http://eprints.soton.ac.uk/id/eprint/473464
DOI: doi:10.1109/LRA.2021.3088779
ISSN: 2377-3766
PURE UUID: 03b60425-112f-4b9b-8a59-faee10f9f939
ORCID for Shoaib Ehsan: ORCID iD orcid.org/0000-0001-9631-1898

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Date deposited: 19 Jan 2023 17:34
Last modified: 17 Mar 2024 04:16

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Contributors

Author: Maria Waheed
Author: Michael Milford
Author: Klaus McDonald-Maier
Author: Shoaib Ehsan ORCID iD

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