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Several papers were selected for Interspeech 2023, and Huoshan Speech effectively solved many types of practical problems

王林
Release: 2023-09-18 11:09:08
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Recently, several papers from the Volcano Voice Team were selected for Interspeech 2023, covering short video speech recognition, cross-language timbre and style, and oral fluency assessment, etc. Innovative breakthroughs in application direction. Interspeech is one of the top conferences in the field of speech research organized by the International Speech Communications Association ISCA. It is also known as the world's largest comprehensive speech signal processing event and has received widespread attention from people in the global language field.

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

Interspeech2023Event site

Data enhancement based on random sentence concatenation to improve short video speech Recognition (Random Utterance Concatenation Based Data Augmentation for Improving Short-video Speech Recognition)

Generally speaking, end-to-end automatic speech recognition (ASR) One of the limitations of the framework is that its performance may suffer if the lengths of training and test statements do not match. In this paper, the Huoshan Speech team proposes a data enhancement method based on instant random sentence concatenation (RUC) as front-end data enhancement to alleviate the problem of training and test sentence length mismatch in short video ASR tasks.

Specifically, the team found that the following observations played a major role in innovative practice: Typically, the training sentences of short video spontaneous speech are much shorter than the human-transcribed sentences (an average of about 3 seconds), while the test sentences generated from the voice activity detection frontend were much longer (about 10 seconds on average). Therefore, this mismatch may lead to poor performance

The Volcano Speech team stated that for the purpose of empirical work, we used multi-class ASR models from 15 languages. Datasets for these languages ​​range from 1,000 to 30,000 hours. During the model fine-tuning phase, we also added data that was sampled and spliced ​​from multiple pieces of data in real time. Compared with the unenhanced data, this method achieves an average relative word error rate reduction of 5.72% across all languages.

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

WER for long sentences on the test set passes RUC dropped significantly after training (blue vs. red)

According to experimental observations, the RUC method significantly improved the recognition ability of long sentences, while the performance of short sentences did not decrease. Further analysis found that the proposed data augmentation method can reduce the sensitivity of the ASR model to length normalization changes, which may mean that the ASR model is more robust in diverse environments. To sum up, although the RUC data enhancement method is simple to operate, the effect is significant

Fluency scoring based on phonetic and prosody-aware self-supervision methods(Phonetic and Prosody-aware Self- Supervised Learning Approach for Non-native Fluency Scoring)

One of the important dimensions for evaluating second language learners’ language ability is oral fluency. Fluent pronunciation is mainly characterized by the ability to produce speech easily and normally without many abnormal phenomena such as pauses, hesitations or self-corrections when speaking. Most second language learners typically speak slower and pause more frequently than native speakers. In order to evaluate spoken fluency, the Volcano Speech team proposed a self-supervised modeling method based on speech and prosody correlation

Specifically, in the pre-training stage, the model’s input sequence features (acoustic features, acoustic features, Phoneme id, phoneme duration) are masked, and the masked features are sent to the model. The context-related encoder is used to restore the phoneme id and phoneme duration information of the masked part based on the timing information, so that the model has more powerful speech and Prosodic representation ability. This solution masks and reconstructs the three features of original duration, phoneme and acoustic information in the sequence modeling framework, allowing the machine to automatically learn the speech and duration representation of the context, which is better used for fluency scoring.

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

#This self-supervised learning method based on speech and prosody outperforms other methods in the field, predicting machine results and human experts on in-house test sets The correlation between scores reached 0.833, which is the same as the correlation between experts and experts. 0.831. On the open source data set, the correlation between machine prediction results and human expert scores reached 0.835, and the performance exceeded some self-supervised methods proposed in the past on this task. In terms of application scenarios, this method can be applied to scenarios that require automatic fluency assessment, such as oral exams and various online oral exercises.

Disentangling the Contribution of Non-native Speech in Automated Pronunciation Assessment

A basic idea of ​​non-native speaker pronunciation assessment is to quantify the deviation between learner pronunciation and native speaker pronunciation. Therefore, early acoustic models used for pronunciation evaluation usually only use target language data for training, but some recent studies have begun to use non-native language pronunciation data for training. Native language speech data is incorporated into model training. There is a fundamental difference between the purpose of incorporating non-native speech into L2 ASR and non-native assessment or pronunciation error detection: the goal of the former is to adapt the model to non-native data as much as possible to achieve optimal ASR performance; the latter requires balancing the two perspectives. There are seemingly contradictory requirements, that is, higher recognition accuracy of non-native speech and objective assessment of the pronunciation level of non-native pronunciation.

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

The Volcano Speech team aims to study the contribution of non-native speech in pronunciation assessment from two different perspectives, namely alignment accuracy and assessment performance. To this end, they designed different data combinations and text transcription forms when training the acoustic model, as shown in the figure above

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

The above two The two tables respectively show the performance of different combinations of acoustic models in alignment accuracy and evaluation. Experimental results show that using only non-native language data with manually annotated phoneme sequences during acoustic model training enables alignment of non-native speech and the highest accuracy in pronunciation assessment. Specifically, mixing half native language data and half non-native data (human-annotated phoneme sequences) in training may be slightly worse, but comparable to using only non-native data with human-annotated phoneme sequences.

Furthermore, the above mixed case performs better when evaluating pronunciation on native language data. With limited resources, adding 10 hours of non-native language data significantly improved alignment accuracy and evaluation performance regardless of the text transcription type used compared to acoustic model training using only native language data. This research has important guiding significance for data applications in the field of speech evaluation

Optimizing frame classification through non-spiking CTC The processor solves the timestamp problem (Improving Frame-level Classifier for Word Timings with Non-peaky CTC in End-to-End Automatic Speech Recognition)

Automatic Speech Recognition (ASR) End-to-end systems in the domain have demonstrated performance comparable to hybrid systems. As a by-product of ASR, timestamps are crucial in many applications, especially in scenarios such as subtitle generation and computationally assisted pronunciation training. This paper aims to optimize the frame-level classifier in an end-to-end system to obtain timestamps. . In this regard, the team introduced the use of CTC (connectionist temporal classification) loss to train the frame-level classifier, and introduced label prior information to alleviate the spike phenomenon of CTC. It also combined the output of the Mel filter with the ASR encoder. as input features.

In internal Chinese experiments, this method achieved 95.68%/94.18% accuracy in word timestamp 200ms, while the traditional hybrid system was only 93.0%/90.22%. In addition, compared to the previous end-to-end approach, the team achieved an absolute performance improvement of 4.80%/8.02% on the 7 internal languages. The accuracy of word timing is also further improved through a frame-by-frame knowledge distillation approach, although this experiment was only conducted for LibriSpeech.

The results of this study demonstrate that timestamp performance in end-to-end speech recognition systems can be effectively optimized by introducing label priors and fusing different levels of features. In internal Chinese experiments, this method has achieved significant improvements compared to hybrid systems and previous end-to-end methods; in addition, the method also shows obvious advantages for multiple languages; through the application of knowledge distillation methods, it has further Improved word timing accuracy. These results are not only of great significance for applications such as subtitle generation and pronunciation training, but also provide useful exploration directions for the development of automatic speech recognition technology.

Language-specific Acoustic Boundary Learning for Mandarin-English Code-switching Speech Recognition Rewritten content: As we all know, the main goal of Code Switching (CS) is to promote effective communication between different languages ​​or technology areas. CS requires the use of two or more languages ​​alternately in a sentence. However, merging words or phrases from multiple languages ​​may lead to errors and confusion in speech recognition, which makes code-switched speech recognition (CSSR) a more Challenging mission

The usual end-to-end ASR model consists of an encoder, a decoder and an alignment mechanism. Most of the existing end-to-end CSASR models only focus on optimizing the encoder and decoder structures, and rarely discuss whether language-related design of the alignment mechanism is needed. Most of the existing work uses a mixture of Mandarin characters and English subwords as modeling units for mixed Chinese and English scenarios. Mandarin characters usually represent single syllables in Mandarin and have clear acoustic boundaries; while English subwords are obtained without reference to any acoustic knowledge, so their acoustic boundaries may be fuzzy. In order to obtain good acoustic boundaries (alignment) between Mandarin and English in the CSASR system, language-related acoustic boundary learning is very necessary. Therefore, we improved on the CIF model and proposed a language-differentiated acoustic boundary learning method for the CSASR task. For detailed information about the model architecture, please see the figure below

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

The model consists of six components, namely the encoder, the language-differentiated weight estimator (LSWE), the CIF module, Autoregressive (AR) decoder, non-autoregressive (NAR) decoder and language change detection (LCD) module. The calculation process of the encoder, autoregressive decoder and CIF is the same as the original CIF-based ASR method. The language-specific weight estimator is responsible for completing the modeling of language-independent acoustic boundaries. The non-autoregressive (NAR) decoder and The Language Change Detection (LCD) module is designed to assist model training and is no longer retained in the decoding stage.

The experimental results show that this method is effective in two test sets of the open source Chinese-English mixed data set SEAME多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题 New SOTA effects were obtained on and 多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题, with MERs of 16.29% and 22.81% respectively. In order to further verify the effect of this method on larger data volumes, the team conducted experiments on an internal data set of 9,000 hours, and finally achieved a relative MER gain of 7.9%. It is understood that this paper is also the first work on acoustic boundary learning for language differentiation in the CSASR task.

USTR: Based on unified representation and plain text ASR Domain adaptation (Text-only Domain Adaptation using Unified Speech-Text Representation in Transducer

As we all know, domain migration has always been a very important task in ASR, but obtaining paired speech data in the target domain is very It is time-consuming and costly, so many of them use text data related to the target domain to improve the recognition effect. Among traditional methods, TTS will increase the training cycle and the storage cost of related data, while methods such as ILME and Shallow fusion will increase the complexity of inference.

Based on this task, the team split the Encoder into Audio Encoder and Shared Encoder based on RNN-T, and introduced Text Encoder to learn representations similar to speech signals; speech and text representations are Through Shared Encoder, RNN-T loss is used for training, which is called USTR (Unified Speech-Text Representation). "For the Text Encoder part, we explored different types of representations, including Character sequence, Phone sequence and Sub-word sequence. The final results showed that the Phone sequence has the best effect. As for the training method, this article explores the method based on the given RNN- Multi-step training method of T model and Single-step training method with completely random initialization."

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

Specifically, the team used the LibriSpeech data set as the Source domain and utilized The annotated text of SPGISpeech is used as plain text for domain migration experiments. Experimental results show that the effect of this method in the target field can be basically the same as that of TTS; the Single-step training effect is higher, and the effect is basically the same as Multi-step; it is also found that the USTR method can further improve the performance of plug-in language models such as ILME. Combined, even if LM uses the same text training corpus. Finally, on the target domain test set, without combining external language models, this method achieved a relative decrease of 43.7% compared to the baseline WER of 23.55% -> 13.25%.

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

Efficient Internal Language Model Estimation Method Based on Knowledge Distillation (Knowledge Distillation Approach for Efficient Internal Language Model Estimation)

Although Internal Language Model Estimation (ILME) has proven its effectiveness in end-to-end ASR language model fusion, compared with traditional Shallow fusion, ILME additionally introduces the calculation of internal language models, increasing the cost of inference. . In order to estimate the internal language model, an additional forward calculation is required based on the ASR decoder, or an independent language model (DR-LM) is trained using the ASR training set text based on the Density Ratio method as the internal language. Approximation of the model. The ILME method based on the ASR decoder can usually achieve better performance than the density ratio method because it directly uses ASR parameters for estimation, but its calculation amount depends on the amount of parameters of the ASR decoder; the advantage of the density ratio method is that it can be controlled by The size of DR-LM enables efficient internal language model estimation.

For this reason, the Volcano Voice team proposed to use the ILME method based on the ASR decoder as a teacher under the framework of the density ratio method to distill and learn DR-LM, thereby significantly reducing the calculation of ILME while maintaining the performance of ILME. cost.

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

Experimental results show that this method can reduce 95% of the internal language model parameters and is comparable in performance to the ASR-based decoder The ILME method is quite similar. When the ILME method with better performance is used as the teacher, the corresponding student model can also achieve better results. Compared with the traditional density ratio method with a similar amount of calculation, this method has slightly better performance in high-resource scenarios. In low-resource cross-domain migration scenarios, the CER gain can reach 8%, and it is more robust to fusion weights

GenerTTS:Pronunciation Disentanglement for Timbre and Style Generalization in Cross-language speech synthesis (GenerTTS: Pronunciation Disentanglement for Timbre and Style Generalization in Cross- Lingual Text-to-Speech

Generalizable speech synthesis (TTS) across language timbres and styles aims to Synthesize speech with a specific reference timbre or style that has not been trained in the target language. It faces challenges such as the difficulty in separating timbre and pronunciation because it is often difficult to obtain multilingual speech data for a specific speaker; style and pronunciation are mixed together because speech style contains both language-independent and language-dependent parts.

To address these challenges, the Volcano Voice team proposed GenerTTS. They carefully designed HuBERT-based information bottlenecks to disentangle the connection between timbre and pronunciation/style. At the same time, they also eliminate language-specific information in the style by minimizing the mutual information between style and language

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

Experimental proof, GenerTTS outperforms baseline systems in terms of stylistic similarity and pronunciation accuracy, and achieves generalizability across language timbres and styles.

多篇论文入选Interspeech 2023,火山语音有效解决多类实践问题

The Huoshan Voice team has always provided high-quality voice AI technology capabilities and full-stack voice product solutions to ByteDance’s internal business lines, and exported them to the outside world through the Volcano engine. Provide services. Since its establishment in 2017, the team has focused on the research and development of industry-leading AI intelligent voice technology, and constantly explores the efficient combination of AI and business scenarios to achieve greater user value.

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