Litcius/Paper detail

MoFusion: A Framework for Denoising-Diffusion-Based Motion Synthesis

Rishabh Dabral, M. Hamza Mughal, Vladislav Golyanik, Christian Theobalt

2023132 citationsDOI

Abstract

Conventional methods for human motion synthesis have either been deterministic or have had to struggle with the trade-off between motion diversity vs motion quality. In response to these limitations, we introduce MoFusion, i.e., a new denoising-diffusion-based framework for high-quality conditional human motion synthesis that can synthesise long, temporally plausible, and semantically accurate motions based on a range of conditioning contexts (such as music and text). We also present ways to introduce well-known kinematic losses for motion plausibility within the motion-diffusion framework through our scheduled weighting strategy. The learned latent space can be used for several interactive motion-editing applications like in-betweening, seed-conditioning, and text-based editing, thus, providing crucial abilities for virtual-character animation and robotics. Through comprehensive quantitative evaluations and a perceptual user study, we demonstrate the effectiveness of MoFusion compared to the state of the art on established benchmarks in the literature. We urge the reader to watch our supplementary video at https://vcai.mpi-inf.mpg.de/projects/MoFusion/.

Topics & Concepts

Computer scienceAnimationMotion (physics)Character animationArtificial intelligenceKinematicsComputer visionNoise reductionRanking (information retrieval)Motion captureHuman–computer interactionComputer animationComputer graphics (images)PhysicsClassical mechanicsHuman Motion and AnimationHuman Pose and Action RecognitionGenerative Adversarial Networks and Image Synthesis