CMAL: A Novel Cross-Modal Associative Learning Framework for Vision-Language Pre-Training
- URL: http://arxiv.org/abs/2410.12595v1
- Date: Wed, 16 Oct 2024 14:12:26 GMT
- Title: CMAL: A Novel Cross-Modal Associative Learning Framework for Vision-Language Pre-Training
- Authors: Zhiyuan Ma, Jianjun Li, Guohui Li, Kaiyan Huang,
- Abstract summary: We propose CMAL, a Cross-Modal Associative Learning framework with anchor points detection and cross-modal associative learning.
CMAL achieves competitive performance against previous CMCL-based methods on four common downstream vision-and-language tasks.
- Score: 17.27516384073838
- License:
- Abstract: With the flourishing of social media platforms, vision-language pre-training (VLP) recently has received great attention and many remarkable progresses have been achieved. The success of VLP largely benefits from the information complementation and enhancement between different modalities. However, most of recent studies focus on cross-modal contrastive learning (CMCL) to promote image-text alignment by pulling embeddings of positive sample pairs together while pushing those of negative pairs apart, which ignores the natural asymmetry property between different modalities and requires large-scale image-text corpus to achieve arduous progress. To mitigate this predicament, we propose CMAL, a Cross-Modal Associative Learning framework with anchor points detection and cross-modal associative learning for VLP. Specifically, we first respectively embed visual objects and textual tokens into separate hypersphere spaces to learn intra-modal hidden features, and then design a cross-modal associative prompt layer to perform anchor point masking and swap feature filling for constructing a hybrid cross-modal associative prompt. Afterwards, we exploit a unified semantic encoder to learn their cross-modal interactive features for context adaptation. Finally, we design an associative mapping classification layer to learn potential associative mappings between modalities at anchor points, within which we develop a fresh self-supervised associative mapping classification task to boost CMAL's performance. Experimental results verify the effectiveness of CMAL, showing that it achieves competitive performance against previous CMCL-based methods on four common downstream vision-and-language tasks, with significantly fewer corpus. Especially, CMAL obtains new state-of-the-art results on SNLI-VE and REC (testA).
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