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speech_paraformer_asr_nat-z…/README.md
ModelHub XC e638909c79 初始化项目,由ModelHub XC社区提供模型 
Model: iic/speech_paraformer_asr_nat-zh-cn-8k-common-vocab8358-tensorflow1
Source: Original Platform
2026-04-13 14:33:02 +08:00

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---
tasks:
- auto-speech-recognition
domain:
- audio
model-type:
- Non-autoregressive
frameworks:
- pytorch
backbone:
- transformer/conformer
metrics:
- CER
license: Apache License 2.0
language:
- cn
tags:
- FunASR
- Paraformer
- Alibaba
- INTERSPEECH 2022
datasets:
train:
- 60,000 hour industrial Mandarin task
test:
- AISHELL-1 dev/test
- AISHELL-2 dev_android/dev_ios/dev_mic/test_android/test_ios/test_mic
- WentSpeech dev/test_meeting/test_net
- SpeechIO TIOBE
- 60,000 hour industrial Mandarin task
indexing:
results:
- task:
name: Automatic Speech Recognition
dataset:
name: 60,000 hour industrial Mandarin task
type: audio # optional
args: 16k sampling rate, 8404 characters # optional
metrics:
- type: CER
value: 8.53% # float
description: greedy search, withou lm, avg.
args: default
- type: RTF
value: 0.0251 # float
description: GPU inference on V100
args: batch_size=1
widgets:
- task: auto-speech-recognition
inputs:
- type: audio
name: input
title: 音频
examples:
- name: 1
title: 示例1
inputs:
- name: input
data: https://isv-data.oss-cn-hangzhou.aliyuncs.com/ics/MaaS/ASR/test_audio/asr_example_zh.wav
inferencespec:
cpu: 8 #CPU数量
memory: 4096
finetune-support: True
---
# Paraformer-large模型介绍
## Highlights
- 热词版本:[Paraformer-large热词版模型](https://www.modelscope.cn/models/damo/speech_paraformer-large-contextual_asr_nat-zh-cn-16k-common-vocab8404/summary)支持热词定制功能,基于提供的热词列表进行激励增强,提升热词的召回率和准确率。
- 长音频版本:[Paraformer-large长音频模型](https://www.modelscope.cn/models/damo/speech_paraformer-large-vad-punc_asr_nat-zh-cn-16k-common-vocab8404-pytorch/summary)集成VAD、ASR、标点与时间戳功能可直接对时长为数小时音频进行识别并输出带标点文字与时间戳。
## <strong>[FunASR开源项目介绍](https://github.com/alibaba-damo-academy/FunASR)</strong>
<strong>[FunASR](https://github.com/alibaba-damo-academy/FunASR)</strong>希望在语音识别的学术研究和工业应用之间架起一座桥梁。通过发布工业级语音识别模型的训练和微调,研究人员和开发人员可以更方便地进行语音识别模型的研究和生产,并推动语音识别生态的发展。让语音识别更有趣!
[**github仓库**](https://github.com/alibaba-damo-academy/FunASR)
| [**最新动态**](https://github.com/alibaba-damo-academy/FunASR#whats-new)
| [**环境安装**](https://github.com/alibaba-damo-academy/FunASR#installation)
| [**服务部署**](https://www.funasr.com)
| [**模型库**](https://github.com/alibaba-damo-academy/FunASR/tree/main/model_zoo)
| [**联系我们**](https://github.com/alibaba-damo-academy/FunASR#contact)
## 模型原理介绍
Paraformer是达摩院语音团队提出的一种高效的非自回归端到端语音识别框架。本项目为Paraformer中文通用语音识别模型采用工业级数万小时的标注音频进行模型训练保证了模型的通用识别效果。模型可以被应用于语音输入法、语音导航、智能会议纪要等场景。
<p align="center">
<img src="fig/struct.png" alt="Paraformer模型结构" width="500" />
Paraformer模型结构如上图所示由 Encoder、Predictor、Sampler、Decoder 与 Loss function 五部分组成。Encoder可以采用不同的网络结构例如self-attentionconformerSAN-M等。Predictor 为两层FFN预测目标文字个数以及抽取目标文字对应的声学向量。Sampler 为无可学习参数模块依据输入的声学向量和目标向量生产含有语义的特征向量。Decoder 结构与自回归模型类似为双向建模自回归为单向建模。Loss function 部分除了交叉熵CE与 MWER 区分性优化目标,还包括了 Predictor 优化目标 MAE。
其核心点主要有:
- Predictor 模块:基于 Continuous integrate-and-fire (CIF) 的 预测器 (Predictor) 来抽取目标文字对应的声学特征向量,可以更加准确的预测语音中目标文字个数。
- Sampler通过采样将声学特征向量与目标文字向量变换成含有语义信息的特征向量配合双向的 Decoder 来增强模型对于上下文的建模能力。
- 基于负样本采样的 MWER 训练准则。
更详细的细节见:
- 论文: [Paraformer: Fast and Accurate Parallel Transformer for Non-autoregressive End-to-End Speech Recognition](https://arxiv.org/abs/2206.08317)
- 论文解读:[Paraformer: 高识别率、高计算效率的单轮非自回归端到端语音识别模型](https://mp.weixin.qq.com/s/xQ87isj5_wxWiQs4qUXtVw)
## 基于ModelScope进行推理
- 推理支持音频格式如下:
- wav文件路径例如data/test/audios/asr_example.wav
- pcm文件路径例如data/test/audios/asr_example.pcm
- wav文件url例如https://isv-data.oss-cn-hangzhou.aliyuncs.com/ics/MaaS/ASR/test_audio/asr_example_zh.wav
- wav二进制数据格式bytes例如用户直接从文件里读出bytes数据或者是麦克风录出bytes数据。
- 已解析的audio音频例如audio, rate = soundfile.read("asr_example_zh.wav")类型为numpy.ndarray或者torch.Tensor。
- wav.scp文件需符合如下要求
```sh
cat wav.scp
asr_example1 data/test/audios/asr_example1.wav
asr_example2 data/test/audios/asr_example2.wav
...
```
- 若输入格式wav文件urlapi调用方式可参考如下范例
```python
from modelscope.pipelines import pipeline
from modelscope.utils.constant import Tasks
inference_pipeline = pipeline(
task=Tasks.auto_speech_recognition,
model='iic/speech_paraformer_asr_nat-zh-cn-8k-common-vocab8358-tensorflow1', model_revision="v2.0.4")
rec_result = inference_pipeline('https://isv-data.oss-cn-hangzhou.aliyuncs.com/ics/MaaS/ASR/test_audio/asr_example_8K.wav')
print(rec_result)
```
- 输入音频为pcm格式调用api时需要传入音频采样率参数audio_fs例如
```python
rec_result = inference_pipeline('https://isv-data.oss-cn-hangzhou.aliyuncs.com/ics/MaaS/ASR/test_audio/asr_example_8K.pcm', audio_fs=16000)
```
- 输入音频为wav格式api调用方式可参考如下范例:
```python
rec_result = inference_pipeline('asr_example_8K.wav')
```
- 若输入格式为文件wav.scp(注:文件名需要以.scp结尾),可添加 output_dir 参数将识别结果写入文件中api调用方式可参考如下范例:
```python
inference_pipeline("wav.scp", output_dir='./output_dir')
```
识别结果输出路径结构如下:
```sh
tree output_dir/
output_dir/
└── 1best_recog
├── score
└── text
1 directory, 3 files
```
score识别路径得分
text语音识别结果文件
- 若输入音频为已解析的audio音频api调用方式可参考如下范例
```python
import soundfile
waveform, sample_rate = soundfile.read("asr_example_8K.wav")
rec_result = inference_pipeline(waveform)
```
- ASR、VAD、PUNC模型自由组合
可根据使用需求对VAD和PUNC标点模型进行自由组合使用方式如下
```python
inference_pipeline = pipeline(
task=Tasks.auto_speech_recognition,
model='iic/speech_paraformer_asr_nat-zh-cn-8k-common-vocab8358-tensorflow1', model_revision="v2.0.4",
vad_model='iic/iic/speech_fsmn_vad_zh-cn-8k-common', vad_model_revision="v2.0.4",
punc_model='iic/punc_ct-transformer_zh-cn-common-vocab272727-pytorch', punc_model_revision="v2.0.4",
# spk_model="iic/speech_campplus_sv_zh-cn_16k-common",
# spk_model_revision="v2.0.2",
)
```
若不使用PUNC模型可配置punc_model=""或不传入punc_model参数如需加入LM模型可增加配置lm_model='damo/speech_transformer_lm_zh-cn-common-vocab8404-pytorch'并设置lm_weight和beam_size参数。
## 基于FunASR进行推理
下面为快速上手教程,测试音频([中文](https://isv-data.oss-cn-hangzhou.aliyuncs.com/ics/MaaS/ASR/test_audio/vad_example.wav)[英文](https://isv-data.oss-cn-hangzhou.aliyuncs.com/ics/MaaS/ASR/test_audio/asr_example_en.wav)
### 可执行命令行
在命令行终端执行:
```shell
funasr +model=paraformer-zh +vad_model="fsmn-vad" +punc_model="ct-punc" +input=vad_example.wav
```
支持单条音频文件识别也支持文件列表列表为kaldi风格wav.scp`wav_id wav_path`
### python示例
#### 非实时语音识别
```python
from funasr import AutoModel
# paraformer-zh is a multi-functional asr model
# use vad, punc, spk or not as you need
model = AutoModel(model="paraformer-zh", model_revision="v2.0.4",
vad_model="fsmn-vad", vad_model_revision="v2.0.4",
punc_model="ct-punc-c", punc_model_revision="v2.0.4",
# spk_model="cam++", spk_model_revision="v2.0.2",
)
res = model.generate(input=f"{model.model_path}/example/asr_example.wav",
batch_size_s=300,
hotword='魔搭')
print(res)
```
注:`model_hub`:表示模型仓库,`ms`为选择modelscope下载`hf`为选择huggingface下载。
#### 实时语音识别
```python
from funasr import AutoModel
chunk_size = [0, 10, 5] #[0, 10, 5] 600ms, [0, 8, 4] 480ms
encoder_chunk_look_back = 4 #number of chunks to lookback for encoder self-attention
decoder_chunk_look_back = 1 #number of encoder chunks to lookback for decoder cross-attention
model = AutoModel(model="paraformer-zh-streaming", model_revision="v2.0.4")
import soundfile
import os
wav_file = os.path.join(model.model_path, "example/asr_example.wav")
speech, sample_rate = soundfile.read(wav_file)
chunk_stride = chunk_size[1] * 960 # 600ms
cache = {}
total_chunk_num = int(len((speech)-1)/chunk_stride+1)
for i in range(total_chunk_num):
speech_chunk = speech[i*chunk_stride:(i+1)*chunk_stride]
is_final = i == total_chunk_num - 1
res = model.generate(input=speech_chunk, cache=cache, is_final=is_final, chunk_size=chunk_size, encoder_chunk_look_back=encoder_chunk_look_back, decoder_chunk_look_back=decoder_chunk_look_back)
print(res)
```
注:`chunk_size`为流式延时配置,`[0,10,5]`表示上屏实时出字粒度为`10*60=600ms`,未来信息为`5*60=300ms`。每次推理输入为`600ms`(采样点数为`16000*0.6=960`),输出为对应文字,最后一个语音片段输入需要设置`is_final=True`来强制输出最后一个字。
#### 语音端点检测(非实时)
```python
from funasr import AutoModel
model = AutoModel(model="fsmn-vad", model_revision="v2.0.4")
wav_file = f"{model.model_path}/example/asr_example.wav"
res = model.generate(input=wav_file)
print(res)
```
#### 语音端点检测(实时)
```python
from funasr import AutoModel
chunk_size = 200 # ms
model = AutoModel(model="fsmn-vad", model_revision="v2.0.4")
import soundfile
wav_file = f"{model.model_path}/example/vad_example.wav"
speech, sample_rate = soundfile.read(wav_file)
chunk_stride = int(chunk_size * sample_rate / 1000)
cache = {}
total_chunk_num = int(len((speech)-1)/chunk_stride+1)
for i in range(total_chunk_num):
speech_chunk = speech[i*chunk_stride:(i+1)*chunk_stride]
is_final = i == total_chunk_num - 1
res = model.generate(input=speech_chunk, cache=cache, is_final=is_final, chunk_size=chunk_size)
if len(res[0]["value"]):
print(res)
```
#### 标点恢复
```python
from funasr import AutoModel
model = AutoModel(model="ct-punc", model_revision="v2.0.4")
res = model.generate(input="那今天的会就到这里吧 happy new year 明年见")
print(res)
```
#### 时间戳预测
```python
from funasr import AutoModel
model = AutoModel(model="fa-zh", model_revision="v2.0.4")
wav_file = f"{model.model_path}/example/asr_example.wav"
text_file = f"{model.model_path}/example/text.txt"
res = model.generate(input=(wav_file, text_file), data_type=("sound", "text"))
print(res)
```
更多详细用法([示例](https://github.com/alibaba-damo-academy/FunASR/tree/main/examples/industrial_data_pretraining)
## 微调
详细用法([示例](https://github.com/alibaba-damo-academy/FunASR/tree/main/examples/industrial_data_pretraining)
## Benchmark
结合大数据、大模型优化的Paraformer在一序列语音识别的benchmark上获得当前SOTA的效果以下展示学术数据集AISHELL-1、AISHELL-2、WenetSpeech公开评测项目SpeechIO TIOBE白盒测试场景的效果。在学术界常用的中文语音识别评测任务中其表现远远超于目前公开发表论文中的结果远好于单独封闭数据集上的模型。
### AISHELL-1
| AISHELL-1 test | w/o LM | w/ LM |
|:------------------------------------------------:|:-------------------------------------:|:-------------------------------------:|
| <div style="width: 150pt">Espnet</div> | <div style="width: 150pt">4.90</div> | <div style="width: 150pt">4.70</div> |
| <div style="width: 150pt">Wenet</div> | <div style="width: 150pt">4.61</div> | <div style="width: 150pt">4.36</div> |
| <div style="width: 150pt">K2</div> | <div style="width: 150pt">-</div> | <div style="width: 150pt">4.26</div> |
| <div style="width: 150pt">Blockformer</div> | <div style="width: 150pt">4.29</div> | <div style="width: 150pt">4.05</div> |
| <div style="width: 150pt">Paraformer-large</div> | <div style="width: 150pt">1.95</div> | <div style="width: 150pt">1.68</div> |
### AISHELL-2
| | dev_ios| test_android| test_ios|test_mic|
|:-------------------------------------------------:|:-------------------------------------:|:-------------------------------------:|:------------------------------------:|:------------------------------------:|
| <div style="width: 150pt">Espnet</div> | <div style="width: 70pt">5.40</div> |<div style="width: 70pt">6.10</div> |<div style="width: 70pt">5.70</div> |<div style="width: 70pt">6.10</div> |
| <div style="width: 150pt">WeNet</div> | <div style="width: 70pt">-</div> |<div style="width: 70pt">-</div> |<div style="width: 70pt">5.39</div> |<div style="width: 70pt">-</div> |
| <div style="width: 150pt">Paraformer-large</div> | <div style="width: 70pt">2.80</div> |<div style="width: 70pt">3.13</div> |<div style="width: 70pt">2.85</div> |<div style="width: 70pt">3.06</div> |
### Wenetspeech
| | dev| test_meeting| test_net|
|:-------------------------------------------------:|:-------------------------------------:|:-------------------------------------:|:------------------------------------:|
| <div style="width: 150pt">Espnet</div> | <div style="width: 100pt">9.70</div> |<div style="width: 100pt">15.90</div> |<div style="width: 100pt">8.80</div> |
| <div style="width: 150pt">WeNet</div> | <div style="width: 100pt">8.60</div> |<div style="width: 100pt">17.34</div> |<div style="width: 100pt">9.26</div> |
| <div style="width: 150pt">K2</div> | <div style="width: 100pt">7.76</div> |<div style="width: 100pt">13.41</div> |<div style="width: 100pt">8.71</div> |
| <div style="width: 150pt">Paraformer-large</div> | <div style="width: 100pt">3.57</div> |<div style="width: 100pt">6.97</div> |<div style="width: 100pt">6.74</div> |
### SpeechIO TIOBE
Paraformer-large模型结合Transformer-LM模型做shallow fusion在公开评测项目SpeechIO TIOBE白盒测试场景上获得当前SOTA的效果目前[Transformer-LM模型](https://modelscope.cn/models/damo/speech_transformer_lm_zh-cn-common-vocab8404-pytorch/summary)已在ModelScope上开源以下展示SpeechIO TIOBE白盒测试场景without LM、with Transformer-LM的效果
- Decode config w/o LM:
- Decode without LM
- Beam size: 1
- Decode config w/ LM:
- Decode with [Transformer-LM](https://modelscope.cn/models/damo/speech_transformer_lm_zh-cn-common-vocab8404-pytorch/summary)
- Beam size: 10
- LM weight: 0.15
| testset | w/o LM | w/ LM |
|:------------------:|:----:|:----:|
|<div style="width: 200pt">SPEECHIO_ASR_ZH00001</div>| <div style="width: 150pt">0.49</div> | <div style="width: 150pt">0.35</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00002</div>| <div style="width: 150pt">3.23</div> | <div style="width: 150pt">2.86</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00003</div>| <div style="width: 150pt">1.13</div> | <div style="width: 150pt">0.80</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00004</div>| <div style="width: 150pt">1.33</div> | <div style="width: 150pt">1.10</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00005</div>| <div style="width: 150pt">1.41</div> | <div style="width: 150pt">1.18</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00006</div>| <div style="width: 150pt">5.25</div> | <div style="width: 150pt">4.85</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00007</div>| <div style="width: 150pt">5.51</div> | <div style="width: 150pt">4.97</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00008</div>| <div style="width: 150pt">3.69</div> | <div style="width: 150pt">3.18</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH00009</div>| <div style="width: 150pt">3.02</div> | <div style="width: 150pt">2.78</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH000010</div>| <div style="width: 150pt">3.35</div> | <div style="width: 150pt">2.99</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH000011</div>| <div style="width: 150pt">1.54</div> | <div style="width: 150pt">1.25</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH000012</div>| <div style="width: 150pt">2.06</div> | <div style="width: 150pt">1.68</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH000013</div>| <div style="width: 150pt">2.57</div> | <div style="width: 150pt">2.25</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH000014</div>| <div style="width: 150pt">3.86</div> | <div style="width: 150pt">3.08</div> |
|<div style="width: 200pt">SPEECHIO_ASR_ZH000015</div>| <div style="width: 150pt">3.34</div> | <div style="width: 150pt">2.67</div> |
## 使用方式以及适用范围
运行范围
- 支持Linux-x86_64、Mac和Windows运行。
使用方式
- 直接推理:可以直接对输入音频进行解码,输出目标文字。
- 微调:加载训练好的模型,采用私有或者开源数据进行模型训练。
使用范围与目标场景
- 适合与离线语音识别场景如录音文件转写配合GPU推理效果更加推荐输入语音时长在20s以下若想解码长音频推荐使用[Paraformer-large长音频模型](https://www.modelscope.cn/models/damo/speech_paraformer-large-vad-punc_asr_nat-zh-cn-16k-common-vocab8404-pytorch/summary)集成VAD、ASR、标点与时间戳功能可直接对时长为数小时音频进行识别并输出带标点文字与时间戳。
## 模型局限性以及可能的偏差
考虑到特征提取流程和工具以及训练工具差异会对CER的数据带来一定的差异<0.1%推理GPU环境差异导致的RTF数值差异
## 相关论文以及引用信息
```BibTeX
@inproceedings{gao2022paraformer,
title={Paraformer: Fast and Accurate Parallel Transformer for Non-autoregressive End-to-End Speech Recognition},
author={Gao, Zhifu and Zhang, Shiliang and McLoughlin, Ian and Yan, Zhijie},
booktitle={INTERSPEECH},
year={2022}
}
```
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