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Autori principali: Hu, Xiaoxing, Yang, Kaicheng, Gong, Ziyang, Ming, Qi, Guo, Zonghao, Tian, Yu, An, Xiang, Feng, Ziyong, Yang, Xue
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.18795
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author Hu, Xiaoxing
Yang, Kaicheng
Gong, Ziyang
Ming, Qi
Guo, Zonghao
Tian, Yu
An, Xiang
Feng, Ziyong
Yang, Xue
author_facet Hu, Xiaoxing
Yang, Kaicheng
Gong, Ziyang
Ming, Qi
Guo, Zonghao
Tian, Yu
An, Xiang
Feng, Ziyong
Yang, Xue
contents The original CLIP text encoder is limited by a maximum input length of 77 tokens, which hampers its ability to effectively process long texts and perform fine-grained semantic understanding. In addition, the CLIP text encoder lacks support for multilingual inputs. All these limitations significantly restrict its applicability across a broader range of tasks. Recent studies have attempted to replace the CLIP text encoder with an LLM-based embedder to enhance its ability in processing long texts, multilingual understanding, and fine-grained semantic comprehension. However, because the representation spaces of LLMs and the vision-language space of CLIP are pretrained independently without alignment priors, direct alignment using contrastive learning can disrupt the intrinsic vision-language alignment in the CLIP image encoder, leading to an underutilization of the knowledge acquired during pre-training. To address this challenge, we propose ProCLIP, a curriculum learning-based progressive vision-language alignment framework to effectively align the CLIP image encoder with an LLM-based embedder. Specifically, ProCLIP first distills knowledge from CLIP's text encoder into the LLM-based embedder to leverage CLIP's rich pretrained knowledge while establishing initial alignment between the LLM embedder and CLIP image encoder. Subsequently, ProCLIP further aligns the CLIP image encoder with the LLM-based embedder through image-text contrastive tuning, employing self-distillation regularization to avoid overfitting. To achieve a more effective alignment, instance semantic alignment loss and embedding structure alignment loss are employed during representation inheritance and contrastive tuning. The Code is available at https://github.com/VisionXLab/ProCLIP.
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spellingShingle ProCLIP: Progressive Vision-Language Alignment via LLM-based Embedder
Hu, Xiaoxing
Yang, Kaicheng
Gong, Ziyang
Ming, Qi
Guo, Zonghao
Tian, Yu
An, Xiang
Feng, Ziyong
Yang, Xue
Computer Vision and Pattern Recognition
The original CLIP text encoder is limited by a maximum input length of 77 tokens, which hampers its ability to effectively process long texts and perform fine-grained semantic understanding. In addition, the CLIP text encoder lacks support for multilingual inputs. All these limitations significantly restrict its applicability across a broader range of tasks. Recent studies have attempted to replace the CLIP text encoder with an LLM-based embedder to enhance its ability in processing long texts, multilingual understanding, and fine-grained semantic comprehension. However, because the representation spaces of LLMs and the vision-language space of CLIP are pretrained independently without alignment priors, direct alignment using contrastive learning can disrupt the intrinsic vision-language alignment in the CLIP image encoder, leading to an underutilization of the knowledge acquired during pre-training. To address this challenge, we propose ProCLIP, a curriculum learning-based progressive vision-language alignment framework to effectively align the CLIP image encoder with an LLM-based embedder. Specifically, ProCLIP first distills knowledge from CLIP's text encoder into the LLM-based embedder to leverage CLIP's rich pretrained knowledge while establishing initial alignment between the LLM embedder and CLIP image encoder. Subsequently, ProCLIP further aligns the CLIP image encoder with the LLM-based embedder through image-text contrastive tuning, employing self-distillation regularization to avoid overfitting. To achieve a more effective alignment, instance semantic alignment loss and embedding structure alignment loss are employed during representation inheritance and contrastive tuning. The Code is available at https://github.com/VisionXLab/ProCLIP.
title ProCLIP: Progressive Vision-Language Alignment via LLM-based Embedder
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2510.18795