OTCR: Optimal Transmission, Compression and Representation for Multimodal Information Extraction
September 17, 2025 Β· Declared Dead Β· π arXiv.org
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Authors
Yang Li, Yajiao Wang, Wenhao Hu, Zhixiong Zhang, Mengting Zhang
arXiv ID
2511.14766
Category
cs.IR: Information Retrieval
Cross-listed
cs.MM
Citations
0
Venue
arXiv.org
Last Checked
4 months ago
Abstract
Multimodal Information Extraction (MIE) requires fusing text and visual cues from visually rich documents. While recent methods have advanced multimodal representation learning, most implicitly assume modality equivalence or treat modalities in a largely uniform manner, still relying on generic fusion paradigms. This often results in indiscriminate incorporation of multimodal signals and insufficient control over task-irrelevant redundancy, which may in turn limit generalization. We revisit MIE from a task-centric view: text should dominate, vision should selectively support. We present OTCR, a two-stage framework. First, Cross-modal Optimal Transport (OT) yields sparse, probabilistic alignments between text tokens and visual patches, with a context-aware gate controlling visual injection. Second, a Variational Information Bottleneck (VIB) compresses fused features, filtering task-irrelevant noise to produce compact, task-adaptive representations. On FUNSD, OTCR achieves 91.95% SER and 91.13% RE, while on XFUND (ZH), it reaches 91.09% SER and 94.20% RE, demonstrating competitive performance across datasets. Feature-level analyses further confirm reduced modality redundancy and strengthened task signals. This work offers an interpretable, information-theoretic paradigm for controllable multimodal fusion in document AI.
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