Feast Your Eyes: Mixture-of-Resolution Adaptation for Multimodal Large Language Models
This work addresses a specific bottleneck in MLLMs for vision-language tasks, offering an incremental improvement in visual recognition capabilities.
The paper tackles the problem of granular visual recognition in multimodal large language models (MLLMs) by proposing a mixture-of-resolution adaptation method, resulting in improved performance on 8 out of 11 vision-language tasks, such as a 9.4% gain on TextVQA, while maintaining efficiency with 20 training hours and 3x faster inference than baseline models.
Despite remarkable progress, existing multimodal large language models (MLLMs) are still inferior in granular visual recognition. Contrary to previous works, we study this problem from the perspective of image resolution, and reveal that a combination of low- and high-resolution visual features can effectively mitigate this shortcoming. Based on this observation, we propose a novel and efficient method for MLLMs, termed Mixture-of-Resolution Adaptation (MRA). In particular, MRA adopts two visual pathways for images with different resolutions, where high-resolution visual information is embedded into the low-resolution pathway via the novel mixture-of-resolution adapters (MR-Adapters). This design also greatly reduces the input sequence length of MLLMs. To validate MRA, we apply it to a recent MLLM called LLaVA, and term the new model LLaVA-HR. We conduct extensive experiments on 11 vision-language (VL) tasks, which show that LLaVA-HR outperforms existing MLLMs on 8 VL tasks, e.g., +9.4% on TextVQA. More importantly, both training and inference of LLaVA-HR remain efficient with MRA, e.g., 20 training hours and 3$\times$ inference speed than LLaVA-1.5. Source codes are released at: https://github.com/luogen1996/LLaVA-HR.