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CHiME8 DASR NeMo Baseline Models

1. Voice Activity Detection (VAD) Model:

MarbleNet_frame_VAD_chime7_Acrobat.nemo

2. Speaker Diarization Model: Multi-scale Diarization Decoder (MSDD-v2)

MSDD_v2_PALO_100ms_intrpl_3scales.nemo

Our DASR system is based on the speaker diarization system using the multi-scale diarization decoder (MSDD).

  • MSDD Reference: Park et al. (2022)
  • MSDD-v2 speaker diarization system employs a multi-scale embedding approach and utilizes TitaNet speaker embedding extractor.
  • Unlike the system that uses a multi-layer LSTM architecture, we employ a four-layer Transformer architecture with a hidden size of 384.
  • This neural model generates logit values indicating speaker existence.
  • Our diarization model is trained on approximately 3,000 hours of simulated audio mixture data from the same multi-speaker data simulator used in VAD model training, drawing from VoxCeleb1&2 and LibriSpeech datasets.
  • MUSAN noise is also used for adding additive background noise, focusing on music and broadband noise.

3. Automatic Speech Recognition (ASR) model

FastConformerXL-RNNT-chime7-GSS-finetuned.nemo

  • This ASR model is based on NeMo FastConformer XL model.
  • Single-channel audio generated using a multi-channel front-end (Guided Source Separation, GSS) is transcribed using a 0.6B parameter Conformer-based transducer (RNNT) model.
  • The model was initialized using a publicly available NeMo checkpoint.
  • This model was then fine-tuned on the CHiME-7 train and dev set, which includes the CHiME-6 and Mixer6 training subsets, after processing the data through the multi-channel ASR front-end, utilizing ground-truth diarization.
    • Fine-Tuning Details:
      • Fine-tuning Duration: 35,000 updates
      • Batch Size: 128

4. Language Model for ASR Decoding: KenLM Model

ASR_LM_chime7_only.kenlm

  • This KenLM model is trained solely on CHiME7-DASR datasets (Mixer6, CHiME6, DipCo).
  • We apply a word-piece level N-gram language model using byte-pair-encoding (BPE) tokens.
  • This approach utilizes the SentencePiece and KenLM toolkits, based on the transcription of CHiME-7 train and dev sets.
  • The token sets of our ASR and LM models were matched to ensure consistency.
  • To combine several N-gram models with equal weights, we used the OpenGrm library.
  • MAES decoding was employed for the transducer, which accelerates the decoding process.
  • As expected, integrating the beam-search decoder with the language model significantly enhances the performance of the end-to-end model compared to its pure counterpart.
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