Exploring Text-to-Motion Generation with Human Preference
This addresses the challenge of reducing reliance on expensive motion capture systems for text-to-motion generation, though it is incremental as it pioneers exploration rather than achieving broad SOTA.
This paper tackles the problem of text-to-motion generation by exploring preference learning as an alternative to expert-labeled datasets, showing that it has the potential to greatly improve current models based on 3,528 annotated preference pairs.
This paper presents an exploration of preference learning in text-to-motion generation. We find that current improvements in text-to-motion generation still rely on datasets requiring expert labelers with motion capture systems. Instead, learning from human preference data does not require motion capture systems; a labeler with no expertise simply compares two generated motions. This is particularly efficient because evaluating the model's output is easier than gathering the motion that performs a desired task (e.g. backflip). To pioneer the exploration of this paradigm, we annotate 3,528 preference pairs generated by MotionGPT, marking the first effort to investigate various algorithms for learning from preference data. In particular, our exploration highlights important design choices when using preference data. Additionally, our experimental results show that preference learning has the potential to greatly improve current text-to-motion generative models. Our code and dataset are publicly available at https://github.com/THU-LYJ-Lab/InstructMotion}{https://github.com/THU-LYJ-Lab/InstructMotion to further facilitate research in this area.