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Dataset Card for AMI Corpus
Deprecated: This legacy dataset is outdated. Please, use edinburghcstr/ami instead.
Dataset Summary
The AMI Meeting Corpus consists of 100 hours of meeting recordings. The recordings use a range of signals synchronized to a common timeline. These include close-talking and far-field microphones, individual and room-view video cameras, and output from a slide projector and an electronic whiteboard. During the meetings, the participants also have unsynchronized pens available to them that record what is written. The meetings were recorded in English using three different rooms with different acoustic properties, and include mostly non-native speakers.
Dataset Preprocessing
Individual samples of the AMI dataset contain very large audio files (between 10 and 60 minutes). Such lengths are unfeasible for most speech recognition models. In the following, we show how the dataset can effectively be chunked into multiple segments as defined by the dataset creators.
The following function cuts the long audio files into the defined segment lengths:
import librosa
import math
from datasets import load_dataset
SAMPLE_RATE = 16_000
def chunk_audio(batch):
new_batch = {
"audio": [],
"words": [],
"speaker": [],
"lengths": [],
"word_start_times": [],
"segment_start_times": [],
}
audio, _ = librosa.load(batch["file"][0], sr=SAMPLE_RATE)
word_idx = 0
num_words = len(batch["words"][0])
for segment_idx in range(len(batch["segment_start_times"][0])):
words = []
word_start_times = []
start_time = batch["segment_start_times"][0][segment_idx]
end_time = batch["segment_end_times"][0][segment_idx]
# go back and forth with word_idx since segments overlap with each other
while (word_idx > 1) and (start_time < batch["word_end_times"][0][word_idx - 1]):
word_idx -= 1
while word_idx < num_words and (start_time > batch["word_start_times"][0][word_idx]):
word_idx += 1
new_batch["audio"].append(audio[int(start_time * SAMPLE_RATE): int(end_time * SAMPLE_RATE)])
while word_idx < num_words and batch["word_start_times"][0][word_idx] < end_time:
words.append(batch["words"][0][word_idx])
word_start_times.append(batch["word_start_times"][0][word_idx])
word_idx += 1
new_batch["lengths"].append(end_time - start_time)
new_batch["words"].append(words)
new_batch["speaker"].append(batch["segment_speakers"][0][segment_idx])
new_batch["word_start_times"].append(word_start_times)
new_batch["segment_start_times"].append(batch["segment_start_times"][0][segment_idx])
return new_batch
ami = load_dataset("ami", "headset-single")
ami = ami.map(chunk_audio, batched=True, batch_size=1, remove_columns=ami["train"].column_names)
The segmented audio files can still be as long as a minute. To further chunk the data into shorter audio chunks, you can use the following script.
MAX_LENGTH_IN_SECONDS = 20.0
def chunk_into_max_n_seconds(batch):
new_batch = {
"audio": [],
"text": [],
}
sample_length = batch["lengths"][0]
segment_start = batch["segment_start_times"][0]
if sample_length > MAX_LENGTH_IN_SECONDS:
num_chunks_per_sample = math.ceil(sample_length / MAX_LENGTH_IN_SECONDS)
avg_chunk_length = sample_length / num_chunks_per_sample
num_words = len(batch["words"][0])
# start chunking by times
start_word_idx = end_word_idx = 0
chunk_start_time = 0
for n in range(num_chunks_per_sample):
while (end_word_idx < num_words - 1) and (batch["word_start_times"][0][end_word_idx] < segment_start + (n + 1) * avg_chunk_length):
end_word_idx += 1
chunk_end_time = int((batch["word_start_times"][0][end_word_idx] - segment_start) * SAMPLE_RATE)
new_batch["audio"].append(batch["audio"][0][chunk_start_time: chunk_end_time])
new_batch["text"].append(" ".join(batch["words"][0][start_word_idx: end_word_idx]))
chunk_start_time = chunk_end_time
start_word_idx = end_word_idx
else:
new_batch["audio"].append(batch["audio"][0])
new_batch["text"].append(" ".join(batch["words"][0]))
return new_batch
ami = ami.map(chunk_into_max_n_seconds, batched=True, batch_size=1, remove_columns=ami["train"].column_names, num_proc=64)
A segmented and chunked dataset of the config "headset-single"
can be found here.
Supported Tasks and Leaderboards
automatic-speech-recognition
: 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 does not have an active leaderboard at the moment.speaker-diarization
: The dataset can be used to train model for Speaker Diarization (SD). The model is presented with an audio file and asked to predict which speaker spoke at what time.
Languages
The audio is in English.
Dataset Structure
Data Instances
A typical data point comprises the path to the audio file (or files in the case of
the multi-headset or multi-microphone dataset), called file
and its transcription as
a list of words, called words
. Additional information about the speakers
, the word_start_time
, word_end_time
, segment_start_time
, segment_end_time
is given.
In addition
and its transcription, called text
. Some additional information about the speaker and the passage which contains the transcription is provided.
{'word_ids': ["ES2004a.D.words1", "ES2004a.D.words2", ...],
'word_start_times': [0.3700000047683716, 0.949999988079071, ...],
'word_end_times': [0.949999988079071, 1.5299999713897705, ...],
'word_speakers': ['A', 'A', ...],
'segment_ids': ["ES2004a.sync.1", "ES2004a.sync.2", ...]
'segment_start_times': [10.944000244140625, 17.618999481201172, ...],
'segment_end_times': [17.618999481201172, 18.722000122070312, ...],
'segment_speakers': ['A', 'B', ...],
'words', ["hmm", "hmm", ...]
'channels': [0, 0, ..],
'file': "/.cache/huggingface/datasets/downloads/af7e748544004557b35eef8b0522d4fb2c71e004b82ba8b7343913a15def465f"
'audio': {'path': "/.cache/huggingface/datasets/downloads/af7e748544004557b35eef8b0522d4fb2c71e004b82ba8b7343913a15def465f",
'array': array([-0.00048828, -0.00018311, -0.00137329, ..., 0.00079346, 0.00091553, 0.00085449], dtype=float32),
'sampling_rate': 16000},
}
Data Fields
word_ids: a list of the ids of the words
word_start_times: a list of the start times of when the words were spoken in seconds
word_end_times: a list of the end times of when the words were spoken in seconds
word_speakers: a list of speakers one for each word
segment_ids: a list of the ids of the segments
segment_start_times: a list of the start times of when the segments start
segment_end_times: a list of the start times of when the segments ends
segment_speakers: a list of speakers one for each segment
words: a list of all the spoken words
channels: a list of all channels that were used for each word
file: a path to the audio file
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]
.
Data Splits
The dataset consists of several configurations, each one having train/validation/test splits:
headset-single: Close talking audio of single headset. This configuration only includes audio belonging to the headset of the person currently speaking.
headset-multi (4 channels): Close talking audio of four individual headset. This configuration includes audio belonging to four individual headsets. For each annotation there are 4 audio files 0, 1, 2, 3.
microphone-single: Far field audio of single microphone. This configuration only includes audio belonging the first microphone, i.e. 1-1, of the microphone array.
microphone-multi (8 channels): Far field audio of microphone array. This configuration includes audio of the first microphone array 1-1, 1-2, ..., 1-8.
In general, headset-single
and headset-multi
include significantly less noise than
microphone-single
and microphone-multi
.
Train | Valid | Test | |
---|---|---|---|
headset-single | 136 (80h) | 18 (9h) | 16 (9h) |
headset-multi (4 channels) | 136 (320h) | 18 (36h) | 16 (36h) |
microphone-single | 136 (80h) | 18 (9h) | 16 (9h) |
microphone-multi (8 channels) | 136 (640h) | 18 (72h) | 16 (72h) |
Note that each sample contains between 10 and 60 minutes of audio data which makes it impractical for direct transcription. One should make use of the segment and word start times and end times to chunk the samples into smaller samples of manageable size.
Dataset Creation
All information about the dataset creation can be found here
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
[Needs More Information]
Additional Information
Dataset Curators
[Needs More Information]
Licensing Information
CC BY 4.0
Citation Information
TODO
Contributions
Thanks to @cahya-wirawan and @patrickvonplaten for adding this dataset.
TODO
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