Your search keyword '"Bhattacharya, Uttaran"' showing total 3 results

1. DanceAnyWay: Synthesizing Beat-Guided 3D Dances with Randomized Temporal Contrastive Learning

Author

Bhattacharya, Aneesh, Paranjape, Manas, Bhattacharya, Uttaran, and Bera, Aniket

Subjects

Computer Science - Sound, Computer Science - Graphics, Computer Science - Multimedia, Electrical Engineering and Systems Science - Audio and Speech Processing

Abstract

We present DanceAnyWay, a generative learning method to synthesize beat-guided dances of 3D human characters synchronized with music. Our method learns to disentangle the dance movements at the beat frames from the dance movements at all the remaining frames by operating at two hierarchical levels. At the coarser "beat" level, it encodes the rhythm, pitch, and melody information of the input music via dedicated feature representations only at the beat frames. It leverages them to synthesize the beat poses of the target dances using a sequence-to-sequence learning framework. At the finer "repletion" level, our method encodes similar rhythm, pitch, and melody information from all the frames of the input music via dedicated feature representations. It generates the full dance sequences by combining the synthesized beat and repletion poses and enforcing plausibility through an adversarial learning framework. Our training paradigm also enforces fine-grained diversity in the synthesized dances through a randomized temporal contrastive loss, which ensures different segments of the dance sequences have different movements and avoids motion freezing or collapsing to repetitive movements. We evaluate the performance of our approach through extensive experiments on the benchmark AIST++ dataset and observe improvements of about 7%-12% in motion quality metrics and 1.5%-4% in motion diversity metrics over the current baselines, respectively. We also conducted a user study to evaluate the visual quality of our synthesized dances. We note that, on average, the samples generated by our method were about 9-48% more preferred by the participants and had a 4-27% better five-point Likert-scale score over the best available current baseline in terms of motion quality and synchronization. Our source code and project page are available at https://github.com/aneeshbhattacharya/DanceAnyWay., Comment: 11 pages, 7 figures, 3 tables. To appear as part of the proceedings of the 38th Annual AAAI Conference on Artificial Intelligence, 2024

Published

2023

2. Speech2AffectiveGestures: Synthesizing Co-Speech Gestures with Generative Adversarial Affective Expression Learning

Author

Bhattacharya, Uttaran, Childs, Elizabeth, Rewkowski, Nicholas, and Manocha, Dinesh

Subjects

Computer Science - Multimedia, Computer Science - Machine Learning

Abstract

We present a generative adversarial network to synthesize 3D pose sequences of co-speech upper-body gestures with appropriate affective expressions. Our network consists of two components: a generator to synthesize gestures from a joint embedding space of features encoded from the input speech and the seed poses, and a discriminator to distinguish between the synthesized pose sequences and real 3D pose sequences. We leverage the Mel-frequency cepstral coefficients and the text transcript computed from the input speech in separate encoders in our generator to learn the desired sentiments and the associated affective cues. We design an affective encoder using multi-scale spatial-temporal graph convolutions to transform 3D pose sequences into latent, pose-based affective features. We use our affective encoder in both our generator, where it learns affective features from the seed poses to guide the gesture synthesis, and our discriminator, where it enforces the synthesized gestures to contain the appropriate affective expressions. We perform extensive evaluations on two benchmark datasets for gesture synthesis from the speech, the TED Gesture Dataset and the GENEA Challenge 2020 Dataset. Compared to the best baselines, we improve the mean absolute joint error by 10--33%, the mean acceleration difference by 8--58%, and the Fr\'echet Gesture Distance by 21--34%. We also conduct a user study and observe that compared to the best current baselines, around 15.28% of participants indicated our synthesized gestures appear more plausible, and around 16.32% of participants felt the gestures had more appropriate affective expressions aligned with the speech., Comment: 11 pages, 4 figures, 2 tables. Proceedings of the 29th ACM International Conference on Multimedia, October 20-24, 2021, Virtual Event, China

Published

2021

3. DanceAnyWay: Synthesizing Mixed-Genre 3D Dance Movements Through Beat Disentanglement

Author

Bhattacharya, Aneesh, Bhattacharya, Uttaran, and Bera, Aniket

Subjects

FOS: Computer and information sciences, Sound (cs.SD), Computer Science - Graphics, Audio and Speech Processing (eess.AS), FOS: Electrical engineering, electronic engineering, information engineering, Computer Science - Sound, Computer Science - Multimedia, Graphics (cs.GR), Electrical Engineering and Systems Science - Audio and Speech Processing, Multimedia (cs.MM)

Abstract

We present DanceAnyWay, a hierarchical generative adversarial learning method to synthesize mixed-genre dance movements of 3D human characters synchronized with music. Our method learns to disentangle the dance movements at the beat frames from the dance movements at all the remaining frames by operating at two hierarchical levels. At the coarser "beat" level, it encodes the rhythm, pitch, and melody information of the input music via dedicated feature representations only at the beat frames. It leverages them to synthesize the beat poses of the target dance using a sequence-to-sequence learning framework. At the finer "repletion" level, our method encodes similar rhythm, pitch, and melody information from all the frames of the input music via dedicated feature representations and couples them with the synthesized beat poses from the coarser level to synthesize the full target dance sequence using an adversarial learning framework. By disentangling the broader dancing styles at the coarser level from the specific dance movements at the finer level, our method can efficiently synthesize dances composed of arbitrarily mixed genres and styles. We evaluate the performance of our approach through extensive experiments on both the mixed-genre TikTok dance dataset and the single-genre AIST++ dataset and observe improvements of about 2% in motion quality metrics and 1.6% - 5.9% in motion diversity metrics over the current baselines in the two datasets respectively. We also conducted a user study to evaluate the visual quality of our synthesized dances. We noted that, on average, the samples generated by our method were about 9% more preferred by the participants and had a 12% better five-point Likert-scale score over the best available current baseline in terms of motion quality and diversity.

Published

2023