Multi-view representation learning via GCCA for multimodal analysis of Parkinson's disease

Abstract

Information from different bio-signals such as speech, handwriting, and gait have been used to monitor the state of Parkinson’s disease (PD) patients, however, all the multimodal bio-signals may not always be available. We propose a method based on multi-view representation learning via generalized canonical correlation analysis (GCCA) for learning a representation of features extracted from handwriting and gait that can be used as a complement to speech-based features. Three different problems are addressed: classification of PD patients vs. healthy controls, prediction of the neurological state of PD patients according to the UPDRS score, and the prediction of a modified version of the Frenchay dysarthria assessment (m-FDA). According to the results, the proposed approach is suitable to improve the results in the addressed problems, specially in the prediction of the UPDRS, and m-FDA scores.

Publication
2017 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)