Automatic learning of 3D pose variability in walking performances for gait analysis
Tipus de documentArticle
Condicions d'accésAccés obert
This paper proposes an action specific model which automatically learns the variability of 3D human postures observed in a set of training sequences. First, a Dynamic Programing synchronization algorithm is presented in order to establish a mapping between postures from different walking cycles, so the whole training set can be synchronized to a common time pattern. Then, the model is trained using the public CMU motion capture dataset for the walking action, and a mean walking performance is automatically learnt. Additionally statistics about the observed variability of the postures and motion direction are also computed at each time step. As a result, in this work we have extended a similar action model successfully used for tracking, by providing facilities for gait analysis and gait recognition applications.
CitacióRius, Ignasi; Gonzàlez, Jordi; Mozerov, Mikhail; Roca, F. Xavier. "Automatic learning of 3D pose variability in walking performances for gait analysis". International journal for computational vision and biomechanics, 2008, vol. 1, núm. 1, p. 33-43.
Versió de l'editorhttp://paginas.fe.up.pt/~ijcvb/editions_v1_n1.htm