TETA: Temporal-Enhanced Text-to-Audio Generation

Jiawei Huang; Yi Ren; Rongjie Huang; Dongchao Yang; Zhenhui Ye; Chen Zhang; Jinglin Liu; Xiang Yin; Zejun MA; Zhou Zhao

TETA: Temporal-Enhanced Text-to-Audio Generation

Jiawei Huang, Yi Ren, Rongjie Huang, Dongchao Yang, Zhenhui Ye, Chen Zhang, Jinglin Liu, Xiang Yin, Zejun MA, Zhou Zhao

20 Sept 2023 (modified: 25 Mar 2024)ICLR 2024 Conference Withdrawn SubmissionEveryoneRevisionsBibTeX

Keywords: Text-to-audio, Audio Generation

Abstract: Large diffusion models have been successful in text-to-audio (T2A) synthesis tasks, but they often suffer from common issues such as semantic misalignment and poor temporal consistency due to limited natural language understanding and data scarcity. Additionally, 2D spatial structures widely used in T2A works lead to unsatisfactory audio quality when generating variable-length audio samples since they do not adequately prioritize temporal information. To address these challenges, we propose TETA, a latent diffusion-based T2A method. Our approach includes several techniques to improve semantic alignment and temporal consistency: Firstly, we use pre-trained large language models (LLMs) to parse the text into structured <event \& order> pairs for better temporal information capture. We also introduce another structured-text encoder to aid in learning semantic alignment during the diffusion denoising process. To improve the performance of variable length generation and enhance the temporal information extraction, we design a feed-forward Transformer-based diffusion denoiser. Finally, we use LLMs to augment and transform a large amount of audio-label data into audio-text datasets to alleviate the problem of scarcity of temporal data. Extensive experiments show that our method outperforms baseline models in both objective and subjective metrics, and achieves significant gains in temporal information understanding, semantic consistency, and sound quality. Our demos are available at \url{https://teta2023.github.io/}.

Supplementary Material: pdf

Primary Area: representation learning for computer vision, audio, language, and other modalities

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Submission Number: 2643

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