Abstract
Parkinson's Disease (PD) is a common disorder of the central nervous system. The Unified Parkinson's Disease Rating Scale or UPDRS is commonly used to track PD symptom progression because it displays the presence and severity of symptoms. To model the relationship between speech signal properties and UPDRS scores, this study develops a new method using Neuro-Fuzzy (ANFIS) and Optimized Learning Rate Learning Vector Quantization (OLVQ1). ANFIS is developed for different Membership Functions (MFs). The method is evaluated using Parkinson's telemonitoring dataset which includes a total of 5875 voice recordings from 42 individuals in the early stages of PD which comprises 28 men and 14 women. The dataset is comprised of 16 vocal features and Motor-UPDRS, and Total-UPDRS. The method is compared with other learning techniques. The results show that OLVQ1 combined with the ANFIS has provided the best results in predicting Motor-UPDRS and Total-UPDRS. The lowest Root Mean Square Error (RMSE) values (UPDRS (Total)=0.5732; UPDRS (Motor)=0.5645) and highest R-squared values (UPDRS (Total)=0.9876; UPDRS (Motor)=0.9911) are obtained by this method. The results are discussed and directions for future studies are presented.
i.
ANFIS and OLVQ1 are combined to predict UPDRS.
ii.
OLVQ1 is used for PD data segmentation.
iii.
ANFIS is developed for different MFs to predict Motor-UPDRS and Total-UPDRS.
i.
ANFIS and OLVQ1 are combined to predict UPDRS.
ii.
OLVQ1 is used for PD data segmentation.
iii.
ANFIS is developed for different MFs to predict Motor-UPDRS and Total-UPDRS.
Original language | English |
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Article number | 102553 |
Journal | MethodsX |
Volume | 12 |
Early online date | 5 Jan 2024 |
DOIs | |
Publication status | Published - Jun 2024 |
ASJC Scopus subject areas
- Clinical Biochemistry
- Medical Laboratory Technology
Keywords
- Learning vector quantization
- Motor-UPDRS
- Neuro-fuzzy
- Optimized learning rate
- Parkinson's disease
- Total-UPDRS