Wang, W., Li, Z., Xu, Q., Li, L., Cai, Y., Jiang, B., Song, H., Hu, X., Wang, P., & Xiao, L. (2024). Advancing Fine-Grained Visual Understanding with Multi-Scale Alignment in Multi-Modal Models. arXiv preprint arXiv:2411.09691.
This paper addresses the challenge of inadequate fine-grained alignment in multi-modal models for visual understanding. The authors aim to improve the models' ability to accurately capture local details and achieve a comprehensive global perception of images by aligning object representations across multiple scales.
The researchers propose a novel fine-grained visual knowledge alignment method that aligns object texts, coordinates, and images across multiple scales. This method involves a three-stage training strategy: (1) Object and Relation Perception Pretraining, (2) Multi-scale Fine-grained Local Knowledge Alignment, and (3) Detailed Global Knowledge Alignment. To support this method, they develop a multi-scale fine-grained enhancement data synthesis pipeline to generate over 300K training data for fine-grained alignment. They then present TinyGroundingGPT, a series of compact models optimized for high-level alignments, to demonstrate the effectiveness of their approach.
The evaluation of TinyGroundingGPT on various benchmarks demonstrates its superior performance in image grounding and understanding tasks compared to existing models, including larger ones. Notably, TinyGroundingGPT achieves state-of-the-art results on several grounding benchmarks, even with a smaller model size. The ablation studies confirm the effectiveness of the proposed multi-scale alignment method and the synthesized datasets in enhancing the model's performance.
The authors conclude that aligning object representations across multiple scales significantly improves the fine-grained visual understanding capabilities of multi-modal models. Their proposed method and data synthesis pipeline effectively address the limitations of previous approaches, leading to enhanced performance in grounding, object recognition, and overall image comprehension.
This research significantly contributes to the field of multi-modal learning by introducing a novel approach for fine-grained visual understanding. The proposed method and the development of compact yet powerful models like TinyGroundingGPT have the potential to advance practical applications of multi-modal models in various domains.
While the paper presents promising results, future research could explore the application of the proposed method to other multi-modal tasks beyond visual understanding. Additionally, investigating the generalization capabilities of the model across diverse datasets and real-world scenarios would be beneficial.
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by Wei Wang, Zh... lúc arxiv.org 11-15-2024
https://arxiv.org/pdf/2411.09691.pdfYêu cầu sâu hơn