Sequence-based filtering for visual route-based navigation: analyzing the benefits, trade-offs and design choices
Sequence-based filtering for visual route-based navigation: analyzing the benefits, trade-offs and design choices
Visual Place Recognition (VPR) is the ability to correctly recall a previously visited place using visual information under environmental, viewpoint and appearance changes. An emerging trend in VPR is the use of sequence-based filtering methods on top of single-frame-based place matching techniques for route-based navigation. The combination leads to varying levels of potential place matching performance boosts at increased computational costs. This raises a number of interesting research questions: How does performance boost (due to sequential filtering) vary along the entire spectrum of single-frame-based matching methods? How does sequence matching length affect the performance curve? Which specific combinations provide a good trade-off between performance and computation? However, there is lack of previous work looking at these important questions and most of the sequence-based filtering work to date has been used without a systematic approach. To bridge this research gap, this paper conducts an in-depth investigation of the relationship between the performance of single-frame-based place matching techniques and the use of sequence-based filtering on top of those methods. It analyzes individual trade-offs, properties and limitations for different combinations of single-frame-based and sequential techniques. The experiments conducted in this study demonstrate the benefits of sequence-based filtering over the single-frame-based approach using various VPR techniques. We found that applying sequence-based filtering to a lightweight descriptor can enable higher VPR accuracy than state-of-the-art methods such as NetVLAD, while running in shorter time. For example, matching a sequence of 16 images, CALC descriptor outperforms NetVLAD on Campus Loop dataset while taking about 22% less time to perform VPR.
Convolutional neural networks, Electronic mail, Filtering, Image matching, Lighting, Navigation, Sequence-based filtering, Visualization, visual localization, visual place recognition
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Tomita, Mihnea-Alexandru
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Zaffar, Mubariz
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Ferrarini, Bruno
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Milford, Michael J.
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McDonald-Maier, Klaus D.
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Ehsan, Shoaib
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Tomita, Mihnea-Alexandru
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Zaffar, Mubariz
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Ferrarini, Bruno
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Milford, Michael J.
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McDonald-Maier, Klaus D.
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Ehsan, Shoaib
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Tomita, Mihnea-Alexandru, Zaffar, Mubariz, Ferrarini, Bruno, Milford, Michael J., McDonald-Maier, Klaus D. and Ehsan, Shoaib
(2022)
Sequence-based filtering for visual route-based navigation: analyzing the benefits, trade-offs and design choices.
IEEE Access, 10, .
(doi:10.1109/ACCESS.2022.3196389).
Abstract
Visual Place Recognition (VPR) is the ability to correctly recall a previously visited place using visual information under environmental, viewpoint and appearance changes. An emerging trend in VPR is the use of sequence-based filtering methods on top of single-frame-based place matching techniques for route-based navigation. The combination leads to varying levels of potential place matching performance boosts at increased computational costs. This raises a number of interesting research questions: How does performance boost (due to sequential filtering) vary along the entire spectrum of single-frame-based matching methods? How does sequence matching length affect the performance curve? Which specific combinations provide a good trade-off between performance and computation? However, there is lack of previous work looking at these important questions and most of the sequence-based filtering work to date has been used without a systematic approach. To bridge this research gap, this paper conducts an in-depth investigation of the relationship between the performance of single-frame-based place matching techniques and the use of sequence-based filtering on top of those methods. It analyzes individual trade-offs, properties and limitations for different combinations of single-frame-based and sequential techniques. The experiments conducted in this study demonstrate the benefits of sequence-based filtering over the single-frame-based approach using various VPR techniques. We found that applying sequence-based filtering to a lightweight descriptor can enable higher VPR accuracy than state-of-the-art methods such as NetVLAD, while running in shorter time. For example, matching a sequence of 16 images, CALC descriptor outperforms NetVLAD on Campus Loop dataset while taking about 22% less time to perform VPR.
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Sequence-Based_Filtering_for_Visual_Route-Based_Navigation_Analyzing_the_Benefits_Trade-Offs_and_Design_Choices
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e-pub ahead of print date: 4 August 2022
Additional Information:
Funding Information:
This work was supported by the U.K. Engineering and Physical Sciences Research Council under Grant EP/R02572X/1 and Grant EP/P017487/1.
Keywords:
Convolutional neural networks, Electronic mail, Filtering, Image matching, Lighting, Navigation, Sequence-based filtering, Visualization, visual localization, visual place recognition
Identifiers
Local EPrints ID: 473475
URI: http://eprints.soton.ac.uk/id/eprint/473475
ISSN: 2169-3536
PURE UUID: ab1b00be-ac95-421b-9fea-fa2cb3f9cb0b
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Date deposited: 19 Jan 2023 17:37
Last modified: 17 Mar 2024 04:16
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Contributors
Author:
Mihnea-Alexandru Tomita
Author:
Mubariz Zaffar
Author:
Bruno Ferrarini
Author:
Michael J. Milford
Author:
Klaus D. McDonald-Maier
Author:
Shoaib Ehsan
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