Overcoming the Myopia of Inductive Learning Algorithms with RELIEFF
Applied Intelligence
BSN '11 Proceedings of the 2011 International Conference on Body Sensor Networks
Extracting Spatio-Temporal Information from Inertial Body Sensor Networks for Gait Speed Estimation
BSN '11 Proceedings of the 2011 International Conference on Body Sensor Networks
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Gait speed is an important feature in many health applications. To obtain this information, a machine-learning approach is often preferred to first principle modeling for its generality in dealing with systematic errors. In this approach, extracting predictive features is critical to the estimation accuracy. Therefore, identifying and extracting highly correlated features for gait speed estimation become the first important steps for the machine-learning framework. This paper proposes a novel nonlinear feature for gait speed estimation using shank-mounted inertial sensors. Rooted in analytic mechanics, this nonlinear feature captures the dynamics of angular position and angular velocity -- two interdependent variables for gait speed -- simultaneously by examining the area of the phase portrait. Among all the features extracted, this nonlinear feature was ranked as the most important by an automatic feature selection algorithm given its highest correlation with gait speed among all features evaluated, and it improves the accuracy for gait speed estimation in intra-subject cross validation compared to using commonly extracted linear features alone.