Dolphin: Document Image Parsing via Heterogeneous Anchor Prompting

Document image parsing is challenging due to its complexly intertwined elements such as text paragraphs, figures, formulas, and tables. Current approaches either assemble specialized expert models or directly generate page-level content autoregressively, facing integration overhead, efficiency bottlenecks, and layout structure degradation despite their decent performance. To address these limitations, we present \textit{Dolphin} (\textit{\textbf{Do}cument Image \textbf{P}arsing via \textbf{H}eterogeneous Anchor Prompt\textbf{in}g}), a novel multimodal document image parsing model following an analyze-then-parse paradigm. In the first stage, Dolphin generates a sequence of layout elements in reading order. These heterogeneous elements, serving as anchors and coupled with task-specific prompts, are fed back to Dolphin for parallel content parsing in the second stage. To train Dolphin, we construct a large-scale dataset of over 30 million samples, covering multi-granularity parsing tasks. Through comprehensive evaluations on both prevalent benchmarks and self-constructed ones, Dolphin achieves state-of-the-art performance across diverse page-level and element-level settings, while ensuring superior efficiency through its lightweight architecture and parallel parsing mechanism. The code and pre-trained models are publicly available atthis https URL

@article{feng2025_2505.14059,
  title={ Dolphin: Document Image Parsing via Heterogeneous Anchor Prompting },
  author={ Hao Feng and Shu Wei and Xiang Fei and Wei Shi and Yingdong Han and Lei Liao and Jinghui Lu and Binghong Wu and Qi Liu and Chunhui Lin and Jingqun Tang and Hao Liu and Can Huang },
  journal={arXiv preprint arXiv:2505.14059},
  year={ 2025 }
}