Human Motion Assessment in Real Time Using Recurrent Self-Organization

The correct execution of well-defined movements plays a crucial role in physical rehabilitation and sports. While there is an extensive number of well-established approaches for human action recognition, the task of assessing the quality of actions and providing feedback for correcting inaccurate movements has remained an open issue in the literature. We present a learning-based method for efficiently providing feedback on a set of training movements captured by a depth sensor. We propose a novel recursive neural network that uses growing self-organization for the efficient learning of body motion sequences. The quality of actions is then computed in terms of how much a performed movement matches the correct continuation of a learned sequence. The proposed system provides visual assistance to the person performing an exercise by displaying real-time feedback, thus enabling the user to correct inaccurate postures and motion intensity. We evaluate our approach with a data set containing 3 powerlifting exercises performed by 17 athletes. Experimental results show that our novel architecture outperforms our previous approach for the correct prediction of routines and the detection of mistakes both in a single- and multiple-subject scenario.

@InProceedings{PMW16, 
 	 author =  {Parisi, German I. and Magg, Sven and Wermter, Stefan},  
 	 title = {Human Motion Assessment in Real Time Using Recurrent Self-Organization}, 
 	 booktitle = {Proceedings of the IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN)},
 	 editors = {},
 	 number = {},
 	 volume = {},
 	 pages = {71--76},
 	 year = {2016},
 	 month = {Aug},
 	 publisher = {IEEE},
 	 doi = {10.1109/ROMAN.2016.7745093}, 
 }