The viewer is disabled because this dataset repo requires arbitrary Python code execution. Please consider
removing the
loading script
and relying on
automated data support
(you can use
convert_to_parquet
from the datasets
library). If this is not possible, please
open a discussion
for direct help.
Dataset Card for timit_asr
Dataset Summary
The TIMIT corpus of read speech is designed to provide speech data for acoustic-phonetic studies and for the development and evaluation of automatic speech recognition systems. TIMIT contains broadband recordings of 630 speakers of eight major dialects of American English, each reading ten phonetically rich sentences. The TIMIT corpus includes time-aligned orthographic, phonetic and word transcriptions as well as a 16-bit, 16kHz speech waveform file for each utterance. Corpus design was a joint effort among the Massachusetts Institute of Technology (MIT), SRI International (SRI) and Texas Instruments, Inc. (TI). The speech was recorded at TI, transcribed at MIT and verified and prepared for CD-ROM production by the National Institute of Standards and Technology (NIST).
The dataset needs to be downloaded manually from https://catalog.ldc.upenn.edu/LDC93S1:
To use TIMIT you have to download it manually.
Please create an account and download the dataset from https://catalog.ldc.upenn.edu/LDC93S1
Then extract all files in one folder and load the dataset with:
`datasets.load_dataset('timit_asr', data_dir='path/to/folder/folder_name')`
Supported Tasks and Leaderboards
automatic-speech-recognition
,speaker-identification
: The dataset can be used to train a model for Automatic Speech Recognition (ASR). The model is presented with an audio file and asked to transcribe the audio file to written text. The most common evaluation metric is the word error rate (WER). The task has an active leaderboard which can be found at https://paperswithcode.com/sota/speech-recognition-on-timit and ranks models based on their WER.
Languages
The audio is in English. The TIMIT corpus transcriptions have been hand verified. Test and training subsets, balanced for phonetic and dialectal coverage, are specified. Tabular computer-searchable information is included as well as written documentation.
Dataset Structure
Data Instances
A typical data point comprises the path to the audio file, usually called file
and its transcription, called text
. Some additional information about the speaker and the passage which contains the transcription is provided.
{
'file': '/data/TRAIN/DR4/MMDM0/SI681.WAV',
'audio': {'path': '/data/TRAIN/DR4/MMDM0/SI681.WAV',
'array': array([-0.00048828, -0.00018311, -0.00137329, ..., 0.00079346, 0.00091553, 0.00085449], dtype=float32),
'sampling_rate': 16000},
'text': 'Would such an act of refusal be useful?',
'phonetic_detail': [{'start': '0', 'stop': '1960', 'utterance': 'h#'},
{'start': '1960', 'stop': '2466', 'utterance': 'w'},
{'start': '2466', 'stop': '3480', 'utterance': 'ix'},
{'start': '3480', 'stop': '4000', 'utterance': 'dcl'},
{'start': '4000', 'stop': '5960', 'utterance': 's'},
{'start': '5960', 'stop': '7480', 'utterance': 'ah'},
{'start': '7480', 'stop': '7880', 'utterance': 'tcl'},
{'start': '7880', 'stop': '9400', 'utterance': 'ch'},
{'start': '9400', 'stop': '9960', 'utterance': 'ix'},
{'start': '9960', 'stop': '10680', 'utterance': 'n'},
{'start': '10680', 'stop': '13480', 'utterance': 'ae'},
{'start': '13480', 'stop': '15680', 'utterance': 'kcl'},
{'start': '15680', 'stop': '15880', 'utterance': 't'},
{'start': '15880', 'stop': '16920', 'utterance': 'ix'},
{'start': '16920', 'stop': '18297', 'utterance': 'v'},
{'start': '18297', 'stop': '18882', 'utterance': 'r'},
{'start': '18882', 'stop': '19480', 'utterance': 'ix'},
{'start': '19480', 'stop': '21723', 'utterance': 'f'},
{'start': '21723', 'stop': '22516', 'utterance': 'y'},
{'start': '22516', 'stop': '24040', 'utterance': 'ux'},
{'start': '24040', 'stop': '25190', 'utterance': 'zh'},
{'start': '25190', 'stop': '27080', 'utterance': 'el'},
{'start': '27080', 'stop': '28160', 'utterance': 'bcl'},
{'start': '28160', 'stop': '28560', 'utterance': 'b'},
{'start': '28560', 'stop': '30120', 'utterance': 'iy'},
{'start': '30120', 'stop': '31832', 'utterance': 'y'},
{'start': '31832', 'stop': '33240', 'utterance': 'ux'},
{'start': '33240', 'stop': '34640', 'utterance': 's'},
{'start': '34640', 'stop': '35968', 'utterance': 'f'},
{'start': '35968', 'stop': '37720', 'utterance': 'el'},
{'start': '37720', 'stop': '39920', 'utterance': 'h#'}],
'word_detail': [{'start': '1960', 'stop': '4000', 'utterance': 'would'},
{'start': '4000', 'stop': '9400', 'utterance': 'such'},
{'start': '9400', 'stop': '10680', 'utterance': 'an'},
{'start': '10680', 'stop': '15880', 'utterance': 'act'},
{'start': '15880', 'stop': '18297', 'utterance': 'of'},
{'start': '18297', 'stop': '27080', 'utterance': 'refusal'},
{'start': '27080', 'stop': '30120', 'utterance': 'be'},
{'start': '30120', 'stop': '37720', 'utterance': 'useful'}],
'dialect_region': 'DR4',
'sentence_type': 'SI',
'speaker_id': 'MMDM0',
'id': 'SI681'
}
Data Fields
file: A path to the downloaded audio file in .wav format.
audio: A dictionary containing the path to the downloaded audio file, the decoded audio array, and the sampling rate. Note that when accessing the audio column:
dataset[0]["audio"]
the audio file is automatically decoded and resampled todataset.features["audio"].sampling_rate
. Decoding and resampling of a large number of audio files might take a significant amount of time. Thus it is important to first query the sample index before the"audio"
column, i.e.dataset[0]["audio"]
should always be preferred overdataset["audio"][0]
.text: The transcription of the audio file.
phonetic_detail: The phonemes that make up the sentence. The PHONCODE.DOC contains a table of all the phonemic and phonetic symbols used in TIMIT lexicon.
word_detail: Word level split of the transcript.
dialect_region: The dialect code of the recording.
sentence_type: The type of the sentence - 'SA':'Dialect', 'SX':'Compact' or 'SI':'Diverse'.
speaker_id: Unique id of the speaker. The same speaker id can be found for multiple data samples.
id: ID of the data sample. Contains the .
Data Splits
The speech material has been subdivided into portions for training and testing. The default train-test split will be made available on data download.
The test data alone has a core portion containing 24 speakers, 2 male and 1 female from each dialect region. More information about the test set can be found here
Dataset Creation
Curation Rationale
[Needs More Information]
Source Data
Initial Data Collection and Normalization
[Needs More Information]
Who are the source language producers?
[Needs More Information]
Annotations
Annotation process
[Needs More Information]
Who are the annotators?
[Needs More Information]
Personal and Sensitive Information
The dataset consists of people who have donated their voice online. You agree to not attempt to determine the identity of speakers in this dataset.
Considerations for Using the Data
Social Impact of Dataset
[More Information Needed]
Discussion of Biases
[More Information Needed]
Other Known Limitations
Dataset provided for research purposes only. Please check dataset license for additional information.
Additional Information
Dataset Curators
The dataset was created by John S. Garofolo, Lori F. Lamel, William M. Fisher, Jonathan G. Fiscus, David S. Pallett, Nancy L. Dahlgren, Victor Zue
Licensing Information
LDC User Agreement for Non-Members
Citation Information
@inproceedings{
title={TIMIT Acoustic-Phonetic Continuous Speech Corpus},
author={Garofolo, John S., et al},
ldc_catalog_no={LDC93S1},
DOI={https://doi.org/10.35111/17gk-bn40},
journal={Linguistic Data Consortium, Philadelphia},
year={1983}
}
Contributions
Thanks to @vrindaprabhu for adding this dataset.
- Downloads last month
- 746