Arbitrary Virtual Try-on Network: Characteristics Preservation and Tradeoff between Body and Clothing

Author:

Liu Yu1ORCID,Zhao Mingbo1ORCID,Zhang Zhao2ORCID,Liu Yuping3ORCID,Yan Shuicheng4ORCID

Affiliation:

1. Donghua University, China

2. Hefei University of Technology, China

3. Fudan University, China

4. The National University of Singapore, Singapore

Abstract

Deep learning based virtual try-on system has achieved some encouraging progress recently, but there still remain several big challenges that need to be solved, such as trying on arbitrary clothes of all types, trying on the clothes from one category to another and generating image-realistic results with few artifacts. To handle this issue, we in this article first collect a new dataset with all types of clothes, i.e., tops, bottoms, and whole clothes, each one has multiple categories with rich information of clothing characteristics such as patterns, logos, and other details. Based on this dataset, we then propose the Arbitrary Virtual Try-On Network (AVTON) that is utilized for all-type clothes, which can synthesize realistic try-on images by preserving and trading off characteristics of the target clothes and the reference person. Our approach includes three modules: (1) Limbs Prediction Module, which is utilized for predicting the human body parts by preserving the characteristics of the reference person. This is especially good for handling cross-category try-on task (e.g., long sleeves ↔ short sleeves or long pants ↔ skirts), where the exposed arms or legs with the skin colors and details can be reasonably predicted; (2) Improved Geometric Matching Module, which is designed to warp clothes according to the geometry of the target person. We improve the TPS based warping method with a compactly supported radial function (Wendland’s Ψ-function); (3) Trade-Off Fusion Module, which is to tradeoff the characteristics of the warped clothes and the reference person. This module is to make the generated try-on images look more natural and realistic based on a fine-tune symmetry of the network structure. Extensive simulations are conducted and our approach can achieve better performance compared with the state-of-the-art virtual try-on methods.

Funder

Graduate Student Innovation Fund of Donghua University

National Natural Science Foundation of China

Anhui Provincial Natural Science Fund for the Distinguished Young Scholars

Open Foundation of Yunnan Key Laboratory of Software Engineering

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Networks and Communications,Hardware and Architecture

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