license: mit
language:
- bn
metrics:
- wer
- cer
library_name: nemo
pipeline_tag: automatic-speech-recognition
Model
Conformer-CTC model trained on the OOD-Speech dataset to transcribe speech from Bangla audio. This is a large variant of the model, with ~121M parameters. To know more about the model architecture see the NeMo Documentation here.
Dataset
The training split contains 1100+ hours
of audio data crowdsoruced from native Bangla speakers. We trained on this split for 164 epochs
, then the model was evaluated on23+ hours
of audio across 17 diverse domains .
Usage
The model can be used as a pretrained checkpoint for inference or for fine-tuning on another dataset through the NVIDIA NeMo toolkit. It is recommended to install the toolkit, after installing the pyTorch package.
apt-get update && apt-get install -y libsndfile1 ffmpeg sox
pip install Cython
pip install nemo_toolkit['all'] #1.19.0
pip uninstall -y torchmetrics
pip install torchmetrics==0.9.2
After installing the required dependencies, download the .nemo file or the pretrained model to your local directory. you can instantiate the pretrained model like following:
import nemo.collections.asr as nemo_asr
asr_model = nemo_asr.models.EncDecCTCModelBPE.restore_from(restore_path="<MODEL PATH>")
Data Preprocessing
Prior to feeding the input audio to the pretrained model for training or inference, we need to resample the audio to 16KHz. We can achieve that using the sox
library :
from sox import Transformer
if not os.path.exists("<RESAMPLED AUDIO FILE PATH>"):
tfm = Transformer()
tfm.rate(samplerate=16000)
tfm.channels(n_channels=1)
tfm.build(input_filepath= "<AUDIO FILE PATH>", output_filepath= "<RESAMPLED AUDIO FILE PATH>")
Training
We used the official NeMo documentation on training an ASR model to prepare our transcript manifest and train our model. However, we did not train any custom tokenizer and instead downloaded the tokenizer from banglaBERT-large for better vocabulary coverage. For validation, we have used 29589
samples separated from the training data and processed accordingly. The final validation score was 22.4% WER
, at epoch 164
.
Training script : training.sh
Evaluation
14,016
test samples have been used to evaluate the dataset. The generated output file contains both ground truth and predicted strings. The final result is the Word Error Rate (WER) and Character Error Rate (CER) for the model.
Evaluation script: evaluation.sh
Test Dataset WER/CER 69.25%/42.13%
Inference
Inference using the library
asr_model.transcribe(paths2audio_files="<LIST OF RESAMPLED AUDIO FILES>")
Infer directly using the repo
python [NEMO_GIT_FOLDER]/examples/asr/transcribe_speech.py \
model_path="<PRETRAINED MODEL PATH>" \
audio_dir="<DIRECTORY CONTAINING RESAMPLED AUDIO FILES>" \
output_filename="<PATH TO OUTPUT JSON>" \
batch_size=1
Domain-wise Performance
The model has also been separately evaluated across the different domain distributions of the test data. For more details please refer this paper: OOD-Speech: A Large Bengali Speech Recognition Dataset for Out-of-Distribution Benchmarking
If you this model in your work, please cite the following paper :
@misc{rakib2023oodspeech,
title={OOD-Speech: A Large Bengali Speech Recognition Dataset for Out-of-Distribution Benchmarking},
author={Fazle Rabbi Rakib and Souhardya Saha Dip and Samiul Alam and Nazia Tasnim and Md. Istiak Hossain Shihab and Md. Nazmuddoha Ansary and Syed Mobassir Hossen and Marsia Haque Meghla and Mamunur Mamun and Farig Sadeque and Sayma Sultana Chowdhury and Tahsin Reasat and Asif Sushmit and Ahmed Imtiaz Humayun},
year={2023},
eprint={2305.09688},
archivePrefix={arXiv},
primaryClass={eess.AS}
}