Auxiliary Descriptive Knowledge for Few-Shot Adaptation of Vision-Language Model
- URL: http://arxiv.org/abs/2512.17313v1
- Date: Fri, 19 Dec 2025 07:52:25 GMT
- Title: Auxiliary Descriptive Knowledge for Few-Shot Adaptation of Vision-Language Model
- Authors: SuBeen Lee, GilHan Park, WonJun Moon, Hyun Seok Seong, Jae-Pil Heo,
- Abstract summary: Few-Shot Adaptation (FSA-VLM) has emerged as a key solution to adapt models with minimal data.<n>Few-Shot Adaptation (FSA-VLM) has emerged as a key solution, typically using.<n>Efficient Fine-Tuning (PEFT) to adapt models with minimal data.<n>ADK is a novel framework that efficiently enriches text representations without compromising efficiency.
- Score: 45.52442142624057
- License: http://creativecommons.org/licenses/by-sa/4.0/
- Abstract: Despite the impressive zero-shot capabilities of Vision-Language Models (VLMs), they often struggle in downstream tasks with distribution shifts from the pre-training data. Few-Shot Adaptation (FSA-VLM) has emerged as a key solution, typically using Parameter-Efficient Fine-Tuning (PEFT) to adapt models with minimal data. However, these PEFT methods are constrained by their reliance on fixed, handcrafted prompts, which are often insufficient to understand the semantics of classes. While some studies have proposed leveraging image-induced prompts to provide additional clues for classification, they introduce prohibitive computational overhead at inference. Therefore, we introduce Auxiliary Descriptive Knowledge (ADK), a novel framework that efficiently enriches text representations without compromising efficiency. ADK first leverages a Large Language Model to generate a rich set of descriptive prompts for each class offline. These pre-computed features are then deployed in two ways: (1) as Compositional Knowledge, an averaged representation that provides rich semantics, especially beneficial when class names are ambiguous or unfamiliar to the VLM; and (2) as Instance-Specific Knowledge, where a lightweight, non-parametric attention mechanism dynamically selects the most relevant descriptions for a given image. This approach provides two additional types of knowledge alongside the handcrafted prompt, thereby facilitating category distinction across various domains. Also, ADK acts as a parameter-free, plug-and-play component that enhances existing PEFT methods. Extensive experiments demonstrate that ADK consistently boosts the performance of multiple PEFT baselines, setting a new state-of-the-art across various scenarios.
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