KeyFrame extraction for human motion capture data via multiple binomial fitting

Authors: Xu, C., Yu, W., Li, Y., Lu, X., Wang, M. and Yang, X.

Journal: Computer Animation and Virtual Worlds

Volume: 32

Issue: 1

eISSN: 1546-427X

ISSN: 1546-4261

DOI: 10.1002/cav.1976

Abstract:

In this paper, we make two contributions. The first is to propose a new keyframe extraction algorithm, which reduces the keyframe redundancy and reduces the motion sequence reconstruction error. Secondly, a new motion sequence reconstruction method is proposed, which further reduces the error of motion sequence reconstruction. Specifically, we treated the input motion sequence as curves, then the binomial fitting was extended to obtain the points where the slope changes dramatically in the vicinity. Then we took these points as inputs to obtain keyframes by density clustering. Finally, the motion curves were segmented by keyframes and the segmented curves were fitted by binomial formula again to obtain the binomial parameters for motion reconstruction. Experiments show that our methods outperform existing techniques, in terms of reconstruction error.

https://eprints.bournemouth.ac.uk/35006/

Source: Scopus

KeyFrame extraction for human motion capture data via multiple binomial fitting

Authors: Xu, C., Yu, W., Li, Y., Lu, X., Wang, M. and Yang, X.

Journal: Computer Animation and Virtual Worlds

Volume: 32

Issue: 1

ISSN: 1546-4261

Abstract:

In this paper, we make two contributions. The first is to propose a new keyframe extraction algorithm, which reduces the keyframe redundancy and reduces the motion sequence reconstruction error. Secondly, a new motion sequence reconstruction method is proposed, which further reduces the error of motion sequence reconstruction. Specifically, we treated the input motion sequence as curves, then the binomial fitting was extended to obtain the points where the slope changes dramatically in the vicinity. Then we took these points as inputs to obtain keyframes by density clustering. Finally, the motion curves were segmented by keyframes and the segmented curves were fitted by binomial formula again to obtain the binomial parameters for motion reconstruction. Experiments show that our methods outperform existing techniques, in terms of reconstruction error.

https://eprints.bournemouth.ac.uk/35006/

Source: BURO EPrints