German multi-task ASR with age and gender classification
This multi-task wav2vec2 based ASR model has two additional classification heads to detect:
- age
- gender ... of the current speaker in one forward pass.
It was trained on mozilla common voice.
Code for training can be found here.
inference_online.py shows, how the model can be used.
from transformers import (
Wav2Vec2FeatureExtractor,
Wav2Vec2CTCTokenizer,
Wav2Vec2Processor
)
import librosa
from datasets import Dataset
import numpy as np
from model import Wav2Vec2ForCTCnCLS
from ctctrainer import CTCTrainer
from datacollator import DataCollatorCTCWithPadding
model_path = "padmalcom/wav2vec2-asr-ultimate-german"
pred_data = {'file': ['audio2.wav']}
cls_age_label_map = {'teens':0, 'twenties': 1, 'thirties': 2, 'fourties': 3, 'fifties': 4, 'sixties': 5, 'seventies': 6, 'eighties': 7}
cls_age_label_class_weights = [0] * len(cls_age_label_map)
cls_gender_label_map = {'female': 0, 'male': 1}
cls_gender_label_class_weights = [0] * len(cls_gender_label_map)
tokenizer = Wav2Vec2CTCTokenizer("./vocab.json", unk_token="<unk>", pad_token="<pad>", word_delimiter_token="|")
feature_extractor = Wav2Vec2FeatureExtractor(feature_size=1, sampling_rate=16000, padding_value=0.0, do_normalize=True, return_attention_mask=False)
processor = Wav2Vec2Processor(feature_extractor, tokenizer)
model = Wav2Vec2ForCTCnCLS.from_pretrained(
model_path,
vocab_size=len(processor.tokenizer),
age_cls_len=len(cls_age_label_map),
gender_cls_len=len(cls_gender_label_map),
age_cls_weights=cls_age_label_class_weights,
gender_cls_weights=cls_gender_label_class_weights,
alpha=0.1,
)
data_collator = DataCollatorCTCWithPadding(processor=processor, padding=True, audio_only=True)
def prepare_dataset_step1(example):
example["speech"], example["sampling_rate"] = librosa.load(example["file"], sr=feature_extractor.sampling_rate)
return example
def prepare_dataset_step2(batch):
batch["input_values"] = processor(batch["speech"], sampling_rate=batch["sampling_rate"][0]).input_values
return batch
val_dataset = Dataset.from_dict(pred_data)
val_dataset = val_dataset.map(prepare_dataset_step1, load_from_cache_file=False)
val_dataset = val_dataset.map(prepare_dataset_step2, batch_size=2, batched=True, num_proc=1, load_from_cache_file=False)
trainer = CTCTrainer(
model=model,
data_collator=data_collator,
eval_dataset=val_dataset,
tokenizer=processor.feature_extractor,
)
predictions, _, _ = trainer.predict(val_dataset, metric_key_prefix="predict")
logits_ctc, logits_age_cls, logits_gender_cls = predictions
# process age classification
pred_ids_age_cls = np.argmax(logits_age_cls, axis=-1)
pred_age = pred_ids_age_cls[0]
age_class = [k for k, v in cls_age_label_map.items() if v == pred_age]
print("Predicted age: ", age_class[0])
# process gender classification
pred_ids_gender_cls = np.argmax(logits_gender_cls, axis=-1)
pred_gender = pred_ids_gender_cls[0]
gender_class = [k for k, v in cls_gender_label_map.items() if v == pred_gender]
print("Predicted gender: ", gender_class[0])
# process token classification
pred_ids_ctc = np.argmax(logits_ctc, axis=-1)
pred_str = processor.batch_decode(pred_ids_ctc, output_word_offsets=True)
print("pred text: ", pred_str.text[0])
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