通过学习注入知识来调整视觉语言模型

Shiyu Xuan;Ming Yang;Shiliang Zhang
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摘要

像 CLIP 这样的预训练视觉语言模型(VLM)在各种视觉任务中都表现出了令人印象深刻的零误差性能。经过数百万甚至数十亿图像-文本对的训练,文本编码器已经记住了大量的外观知识。在 VLM 中,这些知识通常是通过学习特定的任务导向提示来利用的,这可能会限制其在不可见任务中的表现。本文提出了一种新的知识注入框架,以追求 VLM 对下游视觉任务的通用适应性。我们不学习特定任务的提示,而是提取与任务无关的知识特征,并将其插入输入图像或文本的特征中。融合后的特征将获得更好的分辨能力和对类别内差异的鲁棒性。这些知识特征是通过向 VLM 文本编码器输入可学习的提示句子并提取其多层特征而生成的。我们提出了一个新的知识注入模块(KIM),利用知识特征完善文本特征或视觉特征。这种知识注入框架使两种模式都能从文本编码器中记忆的丰富知识中获益。实验表明,我们的方法在少数几次学习、从基础到新类别的泛化、跨数据集转移和领域泛化设置下都优于最近提出的方法。例如,在少量学习设置下,我们的方法比 CoOp 优胜 4.5%;在从基数到新类的泛化设置下,我们的方法比 CoCoOp 优胜 4.4%。我们的代码即将发布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adapting Vision-Language Models via Learning to Inject Knowledge
Pre-trained vision-language models (VLM) such as CLIP, have demonstrated impressive zero-shot performance on various vision tasks. Trained on millions or even billions of image-text pairs, the text encoder has memorized a substantial amount of appearance knowledge. Such knowledge in VLM is usually leveraged by learning specific task-oriented prompts, which may limit its performance in unseen tasks. This paper proposes a new knowledge injection framework to pursue a generalizable adaption of VLM to downstream vision tasks. Instead of learning task-specific prompts, we extract task-agnostic knowledge features, and insert them into features of input images or texts. The fused features hence gain better discriminative capability and robustness to intra-category variances. Those knowledge features are generated by inputting learnable prompt sentences into text encoder of VLM, and extracting its multi-layer features. A new knowledge injection module (KIM) is proposed to refine text features or visual features using knowledge features. This knowledge injection framework enables both modalities to benefit from the rich knowledge memorized in the text encoder. Experiments show that our method outperforms recently proposed methods under few-shot learning, base-to-new classes generalization, cross-dataset transfer, and domain generalization settings. For instance, it outperforms CoOp by 4.5% under the few-shot learning setting, and CoCoOp by 4.4% under the base-to-new classes generalization setting. Our code will be released.
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