Learning Dense UV Completion for 3D Human Mesh Recovery

Qingping Sun; Yanjun Wang; Zhenni Wang; Chi-Sing Leung

doi:10.1007/978-981-99-8138-0_44

Learning Dense UV Completion for 3D Human Mesh Recovery

Qingping Sun, Yanjun Wang, Zhenni Wang, Chi-Sing Leung^*

^*Corresponding author for this work

Department of Electrical Engineering

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 12 - Chapter in an edited book (Author) › peer-review

Abstract

Human mesh reconstruction from a single image is a challenging task due to the occlusion caused by self, objects, or other humans. Existing methods either fail to separate human features accurately or lack proper supervision for feature completion. In this paper, we propose Dense Inpainting Human Mesh Recovery (DIMR), a two-stage method that leverages dense correspondence maps to handle occlusion. Our method utilizes a dense correspondence map to separate visible human features and completes human features on a structured UV space with an attention-based feature completion module. We also design a feature inpainting training procedure that guides the network to learn from unoccluded features. We evaluate our method on several datasets and demonstrate its superior performance under heavily occluded scenarios compared to other methods. Extensive experiments show that our method obviously outperforms prior methods on heavily occluded images and achieves comparable results on the standard benchmarks. Moreover, our method is comparable with previous methods on no heavily occluded images. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

Original language	English
Title of host publication	Neural Information Processing
Subtitle of host publication	30th International Conference, ICONIP 2023, Changsha, China, November 20–23, 2023, Proceedings, Part IX
Editors	Biao Luo, Long Cheng, Zheng-Guang Wu, Hongyi Li, Chaojie Li
Publisher	Springer
Pages	558-569
ISBN (Electronic)	978-981-99-8138-0
ISBN (Print)	978-981-99-8137-3
DOIs	https://doi.org/10.1007/978-981-99-8138-0_44
Publication status	Published - 2024
Event	30th International Conference on Neural Information Processing (ICONIP 2023) - Changsha, China Duration: 20 Nov 2023 → 23 Nov 2023 http://iconip2023.org/

Publication series

Name	Communications in Computer and Information Science
Volume	1963
ISSN (Print)	1865-0929
ISSN (Electronic)	1865-0937

Conference

Conference	30th International Conference on Neural Information Processing (ICONIP 2023)
Abbreviated title	ICONIP2023
Country/Territory	China
City	Changsha
Period	20/11/23 → 23/11/23
Internet address	http://iconip2023.org/

Bibliographical note

Information for this record is supplemented by the author(s) concerned.

Research Keywords

Inpainting
IUV
Occlusion
Skinned Multi-Person Linear Model (SMPL)

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10.1007/978-981-99-8138-0_44

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Sun, Q., Wang, Y., Wang, Z., & Leung, C.-S. (2024). Learning Dense UV Completion for 3D Human Mesh Recovery. In B. Luo, L. Cheng, Z.-G. Wu, H. Li, & C. Li (Eds.), Neural Information Processing: 30th International Conference, ICONIP 2023, Changsha, China, November 20–23, 2023, Proceedings, Part IX (pp. 558-569). (Communications in Computer and Information Science; Vol. 1963). Springer . https://doi.org/10.1007/978-981-99-8138-0_44

Sun, Qingping ; Wang, Yanjun ; Wang, Zhenni et al. / Learning Dense UV Completion for 3D Human Mesh Recovery. Neural Information Processing: 30th International Conference, ICONIP 2023, Changsha, China, November 20–23, 2023, Proceedings, Part IX. editor / Biao Luo ; Long Cheng ; Zheng-Guang Wu ; Hongyi Li ; Chaojie Li. Springer , 2024. pp. 558-569 (Communications in Computer and Information Science).

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abstract = "Human mesh reconstruction from a single image is a challenging task due to the occlusion caused by self, objects, or other humans. Existing methods either fail to separate human features accurately or lack proper supervision for feature completion. In this paper, we propose Dense Inpainting Human Mesh Recovery (DIMR), a two-stage method that leverages dense correspondence maps to handle occlusion. Our method utilizes a dense correspondence map to separate visible human features and completes human features on a structured UV space with an attention-based feature completion module. We also design a feature inpainting training procedure that guides the network to learn from unoccluded features. We evaluate our method on several datasets and demonstrate its superior performance under heavily occluded scenarios compared to other methods. Extensive experiments show that our method obviously outperforms prior methods on heavily occluded images and achieves comparable results on the standard benchmarks. Moreover, our method is comparable with previous methods on no heavily occluded images. {\textcopyright} The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.",

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author = "Qingping Sun and Yanjun Wang and Zhenni Wang and Chi-Sing Leung",

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Sun, Q, Wang, Y, Wang, Z & Leung, C-S 2024, Learning Dense UV Completion for 3D Human Mesh Recovery. in B Luo, L Cheng, Z-G Wu, H Li & C Li (eds), Neural Information Processing: 30th International Conference, ICONIP 2023, Changsha, China, November 20–23, 2023, Proceedings, Part IX. Communications in Computer and Information Science, vol. 1963, Springer , pp. 558-569, 30th International Conference on Neural Information Processing (ICONIP 2023), Changsha, China, 20/11/23. https://doi.org/10.1007/978-981-99-8138-0_44

Learning Dense UV Completion for 3D Human Mesh Recovery. / Sun, Qingping; Wang, Yanjun; Wang, Zhenni et al.
Neural Information Processing: 30th International Conference, ICONIP 2023, Changsha, China, November 20–23, 2023, Proceedings, Part IX. ed. / Biao Luo; Long Cheng; Zheng-Guang Wu; Hongyi Li; Chaojie Li. Springer , 2024. p. 558-569 (Communications in Computer and Information Science; Vol. 1963).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 12 - Chapter in an edited book (Author) › peer-review

TY - CHAP

T1 - Learning Dense UV Completion for 3D Human Mesh Recovery

AU - Sun, Qingping

AU - Wang, Yanjun

AU - Wang, Zhenni

AU - Leung, Chi-Sing

N1 - Information for this record is supplemented by the author(s) concerned.

PY - 2024

Y1 - 2024

N2 - Human mesh reconstruction from a single image is a challenging task due to the occlusion caused by self, objects, or other humans. Existing methods either fail to separate human features accurately or lack proper supervision for feature completion. In this paper, we propose Dense Inpainting Human Mesh Recovery (DIMR), a two-stage method that leverages dense correspondence maps to handle occlusion. Our method utilizes a dense correspondence map to separate visible human features and completes human features on a structured UV space with an attention-based feature completion module. We also design a feature inpainting training procedure that guides the network to learn from unoccluded features. We evaluate our method on several datasets and demonstrate its superior performance under heavily occluded scenarios compared to other methods. Extensive experiments show that our method obviously outperforms prior methods on heavily occluded images and achieves comparable results on the standard benchmarks. Moreover, our method is comparable with previous methods on no heavily occluded images. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

AB - Human mesh reconstruction from a single image is a challenging task due to the occlusion caused by self, objects, or other humans. Existing methods either fail to separate human features accurately or lack proper supervision for feature completion. In this paper, we propose Dense Inpainting Human Mesh Recovery (DIMR), a two-stage method that leverages dense correspondence maps to handle occlusion. Our method utilizes a dense correspondence map to separate visible human features and completes human features on a structured UV space with an attention-based feature completion module. We also design a feature inpainting training procedure that guides the network to learn from unoccluded features. We evaluate our method on several datasets and demonstrate its superior performance under heavily occluded scenarios compared to other methods. Extensive experiments show that our method obviously outperforms prior methods on heavily occluded images and achieves comparable results on the standard benchmarks. Moreover, our method is comparable with previous methods on no heavily occluded images. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

KW - Inpainting

KW - IUV

KW - Occlusion

KW - Skinned Multi-Person Linear Model (SMPL)

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U2 - 10.1007/978-981-99-8138-0_44

DO - 10.1007/978-981-99-8138-0_44

M3 - RGC 12 - Chapter in an edited book (Author)

SN - 978-981-99-8137-3

T3 - Communications in Computer and Information Science

SP - 558

EP - 569

BT - Neural Information Processing

A2 - Luo, Biao

A2 - Cheng, Long

A2 - Wu, Zheng-Guang

A2 - Li, Hongyi

A2 - Li, Chaojie

PB - Springer

T2 - 30th International Conference on Neural Information Processing (ICONIP 2023)

Y2 - 20 November 2023 through 23 November 2023

ER -

Sun Q, Wang Y, Wang Z , Leung CS. Learning Dense UV Completion for 3D Human Mesh Recovery. In Luo B, Cheng L, Wu ZG, Li H, Li C, editors, Neural Information Processing: 30th International Conference, ICONIP 2023, Changsha, China, November 20–23, 2023, Proceedings, Part IX. Springer . 2024. p. 558-569. (Communications in Computer and Information Science). Epub 2023 Nov 26. doi: 10.1007/978-981-99-8138-0_44

Learning Dense UV Completion for 3D Human Mesh Recovery

Abstract

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Research Keywords

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