Cord-Landwehr, T., Boeddeker, C., Haeb-Umbach, R. (2024). Simultaneous Diarization and Separation of Meetings through the Integration of Statistical Mixture Models. arXiv preprint arXiv:2410.21455v1.
This research paper investigates the effectiveness of integrating spatial and spectral information using a combined statistical mixture model for simultaneous diarization and speech separation in meeting transcription tasks.
The authors propose a novel approach called vMFcACGMM, which integrates a von-Mises-Fisher Mixture Model (vMFMM) for spectral diarization and a complex Angular Central Gaussian Mixture Model (cACGMM) for spatial source separation. This integrated model is trained using the Expectation-Maximization (EM) algorithm and utilizes frame-level speaker embeddings for diarization and multi-channel STFT features for separation. The performance of the vMFcACGMM is evaluated on the LibriCSS dataset and compared against various baseline models, including cascaded approaches and neural network-based methods.
The integrated vMFcACGMM demonstrates superior performance compared to cascaded approaches of diarization followed by speech enhancement, achieving a significantly lower word error rate (WER) on both segment and meeting levels. Notably, the model effectively leverages speaker embeddings for robust speaker counting and segment alignment, enabling accurate transcription even without prior knowledge of the number of active speakers in each segment.
The integration of spatial and spectral information through a combined statistical mixture model significantly enhances the accuracy of simultaneous diarization and speech separation for meeting transcription. The proposed vMFcACGMM offers a robust and efficient solution, outperforming traditional cascaded approaches and reducing the reliance on extensive in-domain training data, making it particularly suitable for real-world meeting transcription scenarios.
This research contributes to the field of speech processing by presenting a novel and effective approach for simultaneous diarization and speech separation in meeting transcription. The proposed vMFcACGMM model addresses the limitations of existing methods by effectively integrating spatial and spectral information, leading to improved transcription accuracy and reduced dependence on in-domain training data.
While the vMFcACGMM demonstrates promising results, the authors acknowledge the potential for further improvement in speaker embedding quality to enhance speaker counting and segment alignment accuracy. Future research could explore advanced embedding extraction techniques and explore the model's generalization capabilities on diverse meeting datasets with varying acoustic conditions and speaker characteristics.
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by Tobias Cord-... : arxiv.org 10-30-2024
https://arxiv.org/pdf/2410.21455.pdfDaha Derin Sorular