Activity Recognition Using Biomechanical Model Based Pose Estimation

Publikation

Attila Reiss; Gustaf Hendeby; Gabriele Bleser-Taetz; Didier Stricker

In: P. Lukowitz; G. Kortuem; K. Kunze (Hrsg.). The 5th European Conference on Smart Sensing and Context. European Conference on Smart Sensing and Context (EuroSSC-2010), November 14-16, Passau, Germany, Pages 42-55, Springer, Heidelberg, 2010.

Zusammenfassung

In this paper, a novel activity recognition method based on signal-oriented and model-based features is presented. The model-based features are calculated from shoulder and elbow joint angles and torso orientation, provided by upper-body pose estimation based on a biome- chanical body model. The recognition performance of signal-oriented and model-based features is compared within this paper, and the potential of improving recognition accuracy by combining the two approaches is proved: the accuracy increased by 4–6% for certain activities when adding model-based features to the signal-oriented classiﬁer. The presented ac- tivity recognition techniques are used for recognizing 9 everyday and ﬁtness activities, and thus can be applied for e.g., ﬁtness applications or ‘in vivo’ monitoring of patients.

Projekte

PAMAP - Sensorisches Monitoring physischer Aktivitäten für Menschen im fortschreitenden Lebensalter

Activity Recognition Using Biomechanical Model Based Pose Estimation

Zusammenfassung

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