HybriDLA: Hybrid Generation for Document Layout Analysis
This addresses the challenge of analyzing complex document layouts for applications in document processing and digitization, representing a strong specific gain rather than a foundational advancement.
The paper tackles the problem of document layout analysis for modern documents with diverse and complex layouts by proposing HybriDLA, a hybrid generative framework that unifies diffusion and autoregressive decoding, achieving 83.5% mAP and setting state-of-the-art performance on benchmarks.
Conventional document layout analysis (DLA) traditionally depends on empirical priors or a fixed set of learnable queries executed in a single forward pass. While sufficient for early-generation documents with a small, predetermined number of regions, this paradigm struggles with contemporary documents, which exhibit diverse element counts and increasingly complex layouts. To address challenges posed by modern documents, we present HybriDLA, a novel generative framework that unifies diffusion and autoregressive decoding within a single layer. The diffusion component iteratively refines bounding-box hypotheses, whereas the autoregressive component injects semantic and contextual awareness, enabling precise region prediction even in highly varied layouts. To further enhance detection quality, we design a multi-scale feature-fusion encoder that captures both fine-grained and high-level visual cues. This architecture elevates performance to 83.5% mean Average Precision (mAP). Extensive experiments on the DocLayNet and M$^6$Doc benchmarks demonstrate that HybriDLA sets a state-of-the-art performance, outperforming previous approaches. All data and models will be made publicly available at https://yufanchen96.github.io/projects/HybriDLA.