Publication Type

Conference Proceeding Article

Version

publishedVersion

Publication Date

10-2018

Abstract

Deep learning methods have been successfully applied to fashion retrieval. However, the latent meaning of learned feature vectors hinders the explanation of retrieval results and integration of user feedback. Fortunately, there are many online shopping websites organizing fashion items into hierarchical structures based on product taxonomy and domain knowledge. Such structures help to reveal how human perceive the relatedness among fashion products. Nevertheless, incorporating structural knowledge for deep learning remains a challenging problem. This paper presents techniques for organizing and utilizing the fashion hierarchies in deep learning to facilitate the reasoning of search results and user intent. The novelty of our work originates from the development of an EI (Exclusive & Independent) tree that can cooperate with deep models for end-to-end multimodal learning. EI tree organizes the fashion concepts into multiple semantic levels and augments the tree structure with exclusive as well as independent constraints. It describes the different relationships among sibling concepts and guides the end-to-end learning of multi-level fashion semantics. From EI tree, we learn an explicit hierarchical similarity function to characterize the semantic similarities among fashion products. It facilitates the interpretable retrieval scheme that can integrate the concept-level feedback. Experiment results on two large fashion datasets show that the proposed approach can characterize the semantic similarities among fashion items accurately and capture user’s search intent precisely, leading to more accurate search results as compared to the state-of-the-art methods.

Keywords

Multimodal fashion retrieval, EI tree, Attribute manipulation

Discipline

Databases and Information Systems

Research Areas

Data Science and Engineering

Publication

Proceedings of the 26th ACM International Conference on Multimedia, Seoul, Republic of Korea, 2018 October 22 - 26

First Page

1571

Last Page

1579

ISBN

9781450356657

Identifier

10.1145/3240508.3240646

Publisher

Association for Computing Machinery

City or Country

United States

Additional URL

https://doi.org/10.1145/3240508.3240646

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