Non-Negative Kernel Sparse Coding for the Classification of Motion Data
Abstract
We are interested in the decomposition of motion data into a sparse linear combination of base functions which enable efficient data processing. We combine two prominent frameworks: dynamic time warping (DTW), which offers particularly successful pairwise motion data comparison, and sparse coding (SC), which enables an automatic decomposition of vectorial data into a sparse linear combination of base vectors. We enhance SC as follows: an efficient kernelization which extends its application domain to general similarity data such as offered by DTW, and its restriction to non-negative linear representations of signals and base vectors in order to guarantee a meaningful dictionary. Empirical evaluations on motion capture benchmarks show the effectiveness of our framework regarding interpretation and discrimination concerns.
Keywords
Cite
@article{arxiv.1903.03891,
title = {Non-Negative Kernel Sparse Coding for the Classification of Motion Data},
author = {Babak Hosseini and Felix Hülsmann and Mario Botsch and Barbara Hammer},
journal= {arXiv preprint arXiv:1903.03891},
year = {2019}
}
Comments
8 pages, ICANN 2016 conference