Multi-task adversarial autoencoder network for face alignment in the wild

Yue, X; Li, J; Wu, J; Chang, J; Wan, J; Ma, J

Multi-task adversarial autoencoder network for face alignment in the wild

Yue, X Li, J Wu, J Chang, J Wan, J Ma, J

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Publisher:: Elsevier BV
Publication Type:: Journal Article
Citation:: Neurocomputing, 2021, 437, pp. 261-273
Issue Date:: 2021-05-21

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Field	Value	Language
dc.contributor.author	Yue, X
dc.contributor.author	Li, J
dc.contributor.author	Wu, J
dc.contributor.author	Chang, J
dc.contributor.author	Wan, J
dc.contributor.author	Ma, J
dc.date.accessioned	2022-05-16T07:15:09Z
dc.date.available	2022-05-16T07:15:09Z
dc.date.issued	2021-05-21
dc.identifier.citation	Neurocomputing, 2021, 437, pp. 261-273
dc.identifier.issn	0925-2312
dc.identifier.issn	1872-8286
dc.identifier.uri	http://hdl.handle.net/10453/157429
dc.description.abstract	Face alignment has been applied widely in the field of computer vision, which is still a very challenging task for the existence of large pose, partial occlusion, and illumination, etc. The method based on deep regression neural network has achieved the most advanced performance in the field of face alignment in recent years, and how to learn more representative facial appearance is the key to face alignment. Based on the idea of Multi-task Learning, we propose a Multi-task Adversarial Autoencoder (MTAAE) network, which can learn more representative facial appearance for heatmap regression and improve the performance of face alignment in the wild. MTAAE is composed of three tasks. The main task uses the heatmap regression method to locate the position of landmarks and introduces a discriminator on the landmark heatmaps to generate more realistic heatmaps. Facial attribute estimation tasks and face reconstruction task based on Adversarial Autoencoder respectively extract discriminative and generative representations to improve the effect of heatmap regression. At the same time, the dynamic weight network is designed to assign a weight coefficient dynamically and reasonably for each auxiliary task. Extensive experiments on 300 W, MTFL, and WFLW datasets demonstrate that our method is more robust in complex environments and outperforms state-of-the-art methods.
dc.language	en
dc.publisher	Elsevier BV
dc.relation.ispartof	Neurocomputing
dc.relation.isbasedon	10.1016/j.neucom.2021.01.027
dc.rights	info:eu-repo/semantics/closedAccess
dc.subject	08 Information and Computing Sciences, 09 Engineering, 17 Psychology and Cognitive Sciences
dc.subject.classification	Artificial Intelligence & Image Processing
dc.title	Multi-task adversarial autoencoder network for face alignment in the wild
dc.type	Journal Article
utslib.citation.volume	437
utslib.for	08 Information and Computing Sciences
utslib.for	09 Engineering
utslib.for	17 Psychology and Cognitive Sciences
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
utslib.copyright.status	closed_access	*
dc.date.updated	2022-05-16T07:15:06Z
pubs.publication-status	Published
pubs.volume	437

Abstract:

Face alignment has been applied widely in the field of computer vision, which is still a very challenging task for the existence of large pose, partial occlusion, and illumination, etc. The method based on deep regression neural network has achieved the most advanced performance in the field of face alignment in recent years, and how to learn more representative facial appearance is the key to face alignment. Based on the idea of Multi-task Learning, we propose a Multi-task Adversarial Autoencoder (MTAAE) network, which can learn more representative facial appearance for heatmap regression and improve the performance of face alignment in the wild. MTAAE is composed of three tasks. The main task uses the heatmap regression method to locate the position of landmarks and introduces a discriminator on the landmark heatmaps to generate more realistic heatmaps. Facial attribute estimation tasks and face reconstruction task based on Adversarial Autoencoder respectively extract discriminative and generative representations to improve the effect of heatmap regression. At the same time, the dynamic weight network is designed to assign a weight coefficient dynamically and reasonably for each auxiliary task. Extensive experiments on 300 W, MTFL, and WFLW datasets demonstrate that our method is more robust in complex environments and outperforms state-of-the-art methods.

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http://hdl.handle.net/10453/157429