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Design space exploration of low-bit quantized neural networks for visual place recognition

Design space exploration of low-bit quantized neural networks for visual place recognition
Design space exploration of low-bit quantized neural networks for visual place recognition
Visual Place Recognition (VPR) is a critical task for performing global re-localization in visual perception systems, requiring the ability to recognize a previously visited location under variations such as illumination, occlusion, appearance and viewpoint. In the case of robotics, the target devices for deployment are usually embedded systems. Therefore whilst the accuracy of VPR systems is important so too is memory consumption and latency. Recently new works have focused on the Recall@1 metric paying limited attention to resource utilization, resulting in methods that use complex models unsuitable for edge deployment. We hypothesize that these methods can be optimized to satisfy the constraints of low powered embedded systems whilst maintaining high recall performance. Our work studies the impact of compact architectural design in combination with full-precision and mixed-precision post-training quantization on VPR performance. Importantly we not only measure performance via the Recall@1 score but also measure memory consumption and latency. We characterize the design implications on memory, latency and recall scores and provide a number of design recommendations for VPR systems under these limitations.
Localization, quantization, visual-place-recognition
2377-3766
5070-5077
Grainge, Oliver
3240ff4a-83f8-4eff-aae1-2d2fe201a79f
Milford, Michael
9edf5ef3-4a6a-4d05-aec2-6146c00cd407
Bodala, Indu
aa030b32-7159-4bc7-beb4-50df4ec84944
Ramchurn, Sarvapali D.
1d62ae2a-a498-444e-912d-a6082d3aaea3
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
Grainge, Oliver
3240ff4a-83f8-4eff-aae1-2d2fe201a79f
Milford, Michael
9edf5ef3-4a6a-4d05-aec2-6146c00cd407
Bodala, Indu
aa030b32-7159-4bc7-beb4-50df4ec84944
Ramchurn, Sarvapali D.
1d62ae2a-a498-444e-912d-a6082d3aaea3
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7

Grainge, Oliver, Milford, Michael, Bodala, Indu, Ramchurn, Sarvapali D. and Ehsan, Shoaib (2024) Design space exploration of low-bit quantized neural networks for visual place recognition. IEEE Robotics and Automation Letters, 9 (6), 5070-5077. (doi:10.1109/LRA.2024.3386459).

Record type: Article

Abstract

Visual Place Recognition (VPR) is a critical task for performing global re-localization in visual perception systems, requiring the ability to recognize a previously visited location under variations such as illumination, occlusion, appearance and viewpoint. In the case of robotics, the target devices for deployment are usually embedded systems. Therefore whilst the accuracy of VPR systems is important so too is memory consumption and latency. Recently new works have focused on the Recall@1 metric paying limited attention to resource utilization, resulting in methods that use complex models unsuitable for edge deployment. We hypothesize that these methods can be optimized to satisfy the constraints of low powered embedded systems whilst maintaining high recall performance. Our work studies the impact of compact architectural design in combination with full-precision and mixed-precision post-training quantization on VPR performance. Importantly we not only measure performance via the Recall@1 score but also measure memory consumption and latency. We characterize the design implications on memory, latency and recall scores and provide a number of design recommendations for VPR systems under these limitations.

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More information

e-pub ahead of print date: 8 April 2024
Published date: 8 April 2024
Keywords: Localization, quantization, visual-place-recognition

Identifiers

Local EPrints ID: 503089
URI: http://eprints.soton.ac.uk/id/eprint/503089
DOI: doi:10.1109/LRA.2024.3386459
ISSN: 2377-3766
PURE UUID: 13d1cd10-59c5-460d-ba28-656716e16fe6
ORCID for Sarvapali D. Ramchurn: ORCID iD orcid.org/0000-0001-9686-4302
ORCID for Shoaib Ehsan: ORCID iD orcid.org/0000-0001-9631-1898

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Date deposited: 21 Jul 2025 16:47
Last modified: 22 Jul 2025 02:14

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Contributors

Author: Oliver Grainge
Author: Michael Milford
Author: Indu Bodala
Author: Sarvapali D. Ramchurn ORCID iD
Author: Shoaib Ehsan ORCID iD

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