Auto-Navigator: Decoupled Neural Architecture Search for Visual Navigation

Tang, T; Yu, X; Dong, X; Yang, Y

Auto-Navigator: Decoupled Neural Architecture Search for Visual Navigation

Tang, T

Yu, X

Dong, X Yang, Y

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Publisher:: IEEE
Publication Type:: Conference Proceeding
Citation:: 2021 IEEE Winter Conference on Applications of Computer Vision (WACV), 2021, 00, pp. 3742-3751
Issue Date:: 2021-06-14

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Field	Value	Language
dc.contributor.author	Tang, T https://orcid.org/0000-0001-7754-9673
dc.contributor.author	Yu, X https://orcid.org/0000-0002-0269-5649
dc.contributor.author	Dong, X
dc.contributor.author	Yang, Y https://orcid.org/0000-0002-0512-880X
dc.date	2021-01-03
dc.date.accessioned	2022-04-11T23:34:06Z
dc.date.available	2022-04-11T23:34:06Z
dc.date.issued	2021-06-14
dc.identifier.citation	2021 IEEE Winter Conference on Applications of Computer Vision (WACV), 2021, 00, pp. 3742-3751
dc.identifier.isbn	9780738142661
dc.identifier.issn	2472-6737
dc.identifier.uri	http://hdl.handle.net/10453/156098
dc.description.abstract	Existing visual navigation approaches leverage classification neural networks to extract global features from visual data for navigation. However, these networks are not originally designed for navigation tasks. Thus, the neural architectures might not be suitable to capture scene con-tents. Fortunately, neural architecture search (NAS) brings a hope to solve this problem. In this paper, we propose an Auto-Navigator to customize a specialized network for visual navigation. However, as navigation tasks mainly rely on reinforcement learning (RL) rewards in training, such weak supervision is insufficiently indicative for NAS to optimize visual perception network. Thus, we introduce imitation learning (IL) with optimal paths to optimize navigation policies while selecting an optimal architecture. As Auto-Navigator can obtain a direct supervision in every step, such guidance greatly facilitates architecture search. In particular, we initialize our Auto-Navigator with a learnable distribution over the search space of visual perception architecture, and then optimize the distribution with IL supervision. Afterwards, we employ an RL reward function to fine-tune our Auto-Navigator to improve the generalization ability of our model. Extensive experiments demonstrate that our Auto-Navigator outperforms baseline methods on Gibson and Matterport3D without significantly increasing network parameters.
dc.language	en
dc.publisher	IEEE
dc.relation.ispartof	2021 IEEE Winter Conference on Applications of Computer Vision (WACV)
dc.relation.ispartof	2021 IEEE Winter Conference on Applications of Computer Vision
dc.relation.ispartofseries	IEEE Winter Conference on Applications of Computer Vision
dc.relation.isbasedon	10.1109/wacv48630.2021.00379
dc.rights	info:eu-repo/semantics/openAccess
dc.title	Auto-Navigator: Decoupled Neural Architecture Search for Visual Navigation
dc.type	Conference Proceeding
utslib.citation.volume	00
utslib.location.activity	Waikoloa, HI, USA
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	/University of Technology Sydney/Strength - AAII - Australian Artificial Intelligence Institute
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology/School of Computer Science
utslib.copyright.status	open_access	*
dc.date.updated	2022-04-11T23:34:04Z
pubs.finish-date	2021-01-08
pubs.publication-status	Published
pubs.start-date	2021-01-03
pubs.volume	00

Abstract:

Existing visual navigation approaches leverage classification neural networks to extract global features from visual data for navigation. However, these networks are not originally designed for navigation tasks. Thus, the neural architectures might not be suitable to capture scene con-tents. Fortunately, neural architecture search (NAS) brings a hope to solve this problem. In this paper, we propose an Auto-Navigator to customize a specialized network for visual navigation. However, as navigation tasks mainly rely on reinforcement learning (RL) rewards in training, such weak supervision is insufficiently indicative for NAS to optimize visual perception network. Thus, we introduce imitation learning (IL) with optimal paths to optimize navigation policies while selecting an optimal architecture. As Auto-Navigator can obtain a direct supervision in every step, such guidance greatly facilitates architecture search. In particular, we initialize our Auto-Navigator with a learnable distribution over the search space of visual perception architecture, and then optimize the distribution with IL supervision. Afterwards, we employ an RL reward function to fine-tune our Auto-Navigator to improve the generalization ability of our model. Extensive experiments demonstrate that our Auto-Navigator outperforms baseline methods on Gibson and Matterport3D without significantly increasing network parameters.

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http://hdl.handle.net/10453/156098