Naoshi Kaneko scite author profile

This paper presents a novel framework for automatic speech-driven gesture generation, applicable to human-agent interaction including both virtual agents and robots. Specifically, we extend recent deep-learning-based, data-driven methods for speech-driven gesture generation by incorporating representation learning. Our model takes speech as input and produces gestures as output, in the form of a sequence of 3D coordinates.Our approach consists of two steps. First, we learn a lowerdimensional representation of human motion using a denoising autoencoder neural network, consisting of a motion encoder Mo-tionE and a motion decoder MotionD. The learned representation preserves the most important aspects of the human pose variation while removing less relevant variation. Second, we train a novel encoder network SpeechE to map from speech to a corresponding motion representation with reduced dimensionality. At test time, the speech encoder and the motion decoder networks are combined: SpeechE predicts motion representations based on a given speech signal and MotionD then decodes these representations to produce motion sequences.We evaluate different representation sizes in order to find the most effective dimensionality for the representation. We also evaluate the effects of using different speech features as input to the model. We find that mel-frequency cepstral coefficients (MFCCs), alone or combined with prosodic features, perform the best. The results of a subsequent user study confirm the benefits of the representation learning.

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Evaluation of Speech-to-Gesture Generation Using Bi-Directional LSTM Network

Hasegawa

Kaneko

Shirakawa

et al. 2018

105

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Moving Fast and Slow: Analysis of Representations and Post-Processing in Speech-Driven Automatic Gesture Generation

Kucherenko

Hasegawa

Kaneko

et al. 2021

International Journal of Human–Computer Interaction

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Data augmentation for intra-class imbalance with generative adversarial network

Hase

Ito

Kaneko

et al. 2019

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Speech-to-Gesture Generation

Takeuchi

Hasegawa

Shirakawa

et al. 2017

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Naoshi Kaneko

Analyzing Input and Output Representations for Speech-Driven Gesture Generation

Evaluation of Speech-to-Gesture Generation Using Bi-Directional LSTM Network

Moving Fast and Slow: Analysis of Representations and Post-Processing in Speech-Driven Automatic Gesture Generation

Data augmentation for intra-class imbalance with generative adversarial network

Speech-to-Gesture Generation

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