Alexander H. Liu scite author profile

In this paper we proposed a novel Adversarial Training (AT) approach for end-to-end speech recognition using a Criticizing Language Model (CLM). In this way the CLM and the automatic speech recognition (ASR) model can challenge and learn from each other iteratively to improve the performance. Since the CLM only takes the text as input, huge quantities of unpaired text data can be utilized in this approach within end-to-end training. Moreover, AT can be applied to any end-to-end ASR model using any deep-learning-based language modeling frameworks, and compatible with any existing end-to-end decoding method. Initial results with an example experimental setup demonstrated the proposed approach is able to gain consistent improvements efficiently from auxiliary text data under different scenarios.

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Non-Autoregressive Predictive Coding for Learning Speech Representations from Local Dependencies

Liu

Chung

Glass

2021

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Self-supervised speech representations have been shown to be effective in a variety of speech applications. However, existing representation learning methods generally rely on the autoregressive model and/or observed global dependencies while generating the representation. In this work, we propose Non-Autoregressive Predictive Coding (NPC), a self-supervised method, to learn a speech representation in a non-autoregressive manner by relying only on local dependencies of speech. NPC has a conceptually simple objective and can be implemented easily with the introduced Masked Convolution Blocks. NPC offers a significant speedup for inference since it is parallelizable in time and has a fixed inference time for each time step regardless of the input sequence length. We discuss and verify the effectiveness of NPC by theoretically and empirically comparing it with other methods. We show that the NPC representation is comparable to other methods in speech experiments on phonetic and speaker classification while being more efficient.

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Towards Unsupervised Speech Recognition and Synthesis with Quantized Speech Representation Learning

Liu

Lee

et al. 2020

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In this paper we propose a Sequential Representation Quantization AutoEncoder (SeqRQ-AE) to learn from primarily unpaired audio data and produce sequences of representations very close to phoneme sequences of speech utterances. This is achieved by proper temporal segmentation to make the representations phonemesynchronized, and proper phonetic clustering to have total number of distinct representations close to the number of phonemes. Mapping between the distinct representations and phonemes is learned from a small amount of annotated paired data. Preliminary experiments on LJSpeech demonstrated the learned representations for vowels have relative locations in latent space in good parallel to that shown in the IPA vowel chart defined by linguistics experts. With less than 20 minutes of annotated speech, our method outperformed existing methods on phoneme recognition and is able to synthesize intelligible speech that beats our baseline model.

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Towards Unsupervised Speech Recognition and Synthesis with Quantized Speech Representation Learning

Liu¹,

Tu²,

Lee³

et al. 2019

Preprint

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Non-Autoregressive Predictive Coding for Learning Speech Representations from Local Dependencies

Liu¹,

Chung²,

Glass³

2020

Preprint

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Cross-Modal Discrete Representation Learning

Liu¹,

Jin²,

Lai³

et al. 2022

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In contrast to recent advances focusing on highlevel representation learning across modalities, in this work we present a self-supervised learning framework that is able to learn a representation that captures finer levels of granularity across different modalities such as concepts or events represented by visual objects or spoken words. Our framework relies on a discretized embedding space created via vector quantization that is shared across different modalities. Beyond the shared embedding space, we propose a Cross-Modal Code Matching objective that forces the representations from different views (modalities) to have a similar distribution over the discrete embedding space such that cross-modal objects/actions localization can be performed without direct supervision. We show that the proposed discretized multi-modal finegrained representation (e.g., pixel/word/frame) can complement high-level summary representations (e.g., video/sentence/waveform) for improved performance on cross-modal retrieval tasks. We also observe that the discretized representation uses individual clusters to represent the same semantic concept across modalities.

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Cross-Modal Discrete Representation Learning

Liu¹,

Jin²,

Lai³

et al. 2021

Preprint

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Alexander H. Liu

Towards Scene Understanding: Unsupervised Monocular Depth Estimation With Semantic-Aware Representation

Adversarial Training of End-to-end Speech Recognition Using a Criticizing Language Model

Non-Autoregressive Predictive Coding for Learning Speech Representations from Local Dependencies

Towards Unsupervised Speech Recognition and Synthesis with Quantized Speech Representation Learning

Towards Unsupervised Speech Recognition and Synthesis with Quantized Speech Representation Learning

Non-Autoregressive Predictive Coding for Learning Speech Representations from Local Dependencies

Cross-Modal Discrete Representation Learning

Cross-Modal Discrete Representation Learning

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