Ada Zhang1, Alexander Cebulla2, Stanislav Panev1, Jessica Hodgins1, Fernando De La Torre1
09:00 - 09:15 | Wed 12 Jul | Geddes Room | WeAT12.5
Continuous, automated monitoring of Parkinson's Disease (PD) symptoms would provide clinicians with more information to understand their patients' disease progression and adjust treatment protocols, thereby improving care. Collecting precisely labeled data for Parkinson's symptoms, such as tremor, is difficult. Therefore, algorithms for monitoring should only require weakly-labeled training data. In this paper, we evaluate five standard weakly-supervised algorithms and propose a ``stratified'' version of three of the algorithms, which take advantage of knowing the approximate amount of tremor within each segment. We analyze PD tremor detection performance as training segments increase in length from 30 seconds to 10 minutes, and labels thereby become less precise. As segment length increases to 10 minutes, standard algorithms are not able to discriminate tremor from non-tremor. However, our stratified algorithms, which make use of more nuanced labels, show little decrease in performance as segment length increases.