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Impact of Data Preparation in Freezing of Gait Detection Using Feature-Less Recurrent Neural Network

Ali Haddadi Esfahani, Zoya Dyka, Steffen Ortmann, Peter Langendörfer

2021IEEE Access20 citationsDOIOpen Access PDF

Abstract

Many studies showed the feasibility of detecting Freezing of Gait (FOG) of Parkinson patients by using several numbers of inertial sensors worn at the body and back-end computing power. This work uses machine learning approaches analyzing the data of one single body-worn inertial sensor system to classify and detect FOG. Long-Short-Term-Memory (LSTM) is employed as the FOG detection algorithm and the Daphnet (FOG and normal gait) dataset provides the data for model training and testing in this paper. The model considers raw data from three channels of the acceleration sensor mounted on the patient’s shank and ignores all other data from other sensors. The model is patient dependent and sensitivity and specificity metrics are used to evaluate the model’s performance. In this paper, we propose a novel padding method that is applied to the windows of FOG and non-FOG with zero overlaps on the training set and adapts the padding to the individual regions. This method produces windows containing only one type of data and label. The proposed padding method reduces the padding amount by two orders of magnitude compared to bigger batch-sizes in the sequence splitting method offered by MATLAB 2019a. The padding amount is independent of the batch-size. Raw data is fed to the model in the testing mode without any pre-processing or data transformation. The standard rolling window generates fixed-size windows for the test set without overlap and the higher amount of FOG or Normal walking data defines the label of the individual window. The model for one-second long windows applied in this work outperformed the literature results with a sensitivity of 92.57% and a specificity of 95.62% compared to 82% and 94% reported by Masiala et al.

Topics & Concepts

Computer sciencePaddingArtificial neural networkArtificial intelligenceFeature (linguistics)GaitReal-time computingPattern recognition (psychology)Computer visionSimulationLinguisticsPhilosophyComputer securityPhysiologyBiologyGait Recognition and AnalysisDiabetic Foot Ulcer Assessment and ManagementContext-Aware Activity Recognition Systems
Impact of Data Preparation in Freezing of Gait Detection Using Feature-Less Recurrent Neural Network | Litcius