Stacked Marginal Time Warping for Temporal Alignment

摘要

Time warping is the popular technique of temporally aligning two sequences and has successfully applied in temporal alignment tasks such as activity recognition. However, existing time warping methods suffer from limited representation ability because aligning process is performed on either raw sequences or the projected lower-dimensional features. In this paper, we propose a stacked time warping framework (STW) to learn layer-wise representation for temporal alignment in a stacked structure. By using this structure, STW gives higher flexibility than existing methods meanwhile unifies them into a deep architecture. Based on the proposed STW framework, we explore a stacked marginal time warping (SMTW) method by using marginal stacked denoising autoencoder (mSDA) as the regularization term which enables SMTW to marginalize out noises and learn layer-wise non-linear representations with the effective closed-form solution. Benefitting from the incorporation of mSDA, SMTW achieves better alignment performance and keeps comparable time efficiency with regular time warping methods. Experiments on both synthetic data and practical human activity recognition datasets demonstrate that SMTW is superior to the state-of-the-art time warping methods in quantity.