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Bibliographic Details
Main Authors: Ma, Zhiming, Gan, Shiyu, Zhao, Junhao, Li, Xianming, Pan, Qingyun, Wang, Peidong, Pan, Mingjun, Mo, Yuhao, Cheng, Jiajie, Chen, Chengxin, Cao, Zhonglun, Liu, Chonghan, Cheng, Shi
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.09915
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Table of Contents:
  • Hearing-impaired individuals often face significant barriers in daily communication due to the inherent challenges of producing clear speech. To address this, we introduce the Omni-Model paradigm into assistive technology and present HI-TransPA, an instruction-driven audio-visual personal assistant. The model fuses indistinct speech with lip dynamics, enabling both translation and dialogue within a single multimodal framework. To address the distinctive pronunciation patterns of hearing-impaired speech and the limited adaptability of existing models, we develop a multimodal preprocessing and curation pipeline that detects facial landmarks, stabilizes the lip region, and quantitatively evaluates sample quality. These quality scores guide a curriculum learning strategy that first trains on clean, high-confidence samples and progressively incorporates harder cases to strengthen model robustness. Architecturally, we employs a novel unified 3D-Resampler to efficiently encode the lip dynamics, which is critical for accurate interpretation. Experiments on purpose-built HI-Dialogue dataset show that HI-TransPA achieves state-of-the-art performance in both literal accuracy and semantic fidelity. Our work establishes a foundation for applying Omni-Models to assistive communication technology, providing an end-to-end modeling framework and essential processing tools for future research.