Title :
A model (in)validation approach to gait classification
Author :
Mazzaro, Maria Cecilla ; Sznaier, Mario ; Camps, Octavia
Author_Institution :
GE Global Res., NY, USA
Abstract :
This paper addresses the problem of human gait classification from a robust model (in)validation perspective. The main idea is to associate to each class of gaits a nominal model, subject to bounded uncertainty and measurement noise. In this context, the problem of recognizing an activity from a sequence of frames can be formulated as the problem of determining whether this sequence could have been generated by a given (model, uncertainty, and noise) triple. By exploiting interpolation theory, this problem can be recast into a nonconvex optimization. In order to efficiently solve it, we propose two convex relaxations, one deterministic and one stochastic. As we illustrate experimentally, these relaxations achieve over 83 percent and 86 percent success rates, respectively, even in the face of noisy data.
Keywords :
interpolation; optimisation; pattern classification; bounded uncertainty; human gait classification; interpolation theory; measurement noise; model (in)validation; nonconvex optimization; Context modeling; Hidden Markov models; Humans; Interpolation; Measurement uncertainty; Noise generators; Noise measurement; Noise robustness; Stochastic processes; Stochastic resonance; Index Terms- Gait classification; activity recognition; model (in)validation; risk-adjusted (in)validation.; Algorithms; Artificial Intelligence; Biometry; Cluster Analysis; Computer Simulation; Gait; Humans; Image Enhancement; Image Interpretation, Computer-Assisted; Information Storage and Retrieval; Joints; Leg; Models, Biological; Pattern Recognition, Automated; Reproducibility of Results; Sensitivity and Specificity; Video Recording;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
DOI :
10.1109/TPAMI.2005.210
