A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait Signal

In this study, we focused on the gait of Parkinson’s disease (PD) and presented a gray box model for it. We tried to present a model for basal ganglia structure in order to generate stride time interval signal in model output for healthy and PD states. Because of feedback role of dopamine neurotrans...

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Main Authors: Yashar Sarbaz, Shahriar Gharibzadeh, Farzad Towhidkhah, Masood Banaie, Ayyoob Jafari
Format: Article
Language:English
Published: Iran University of Medical Sciences 2011-04-01
Series:Basic and Clinical Neuroscience
Subjects:
Online Access:http://bcn.iums.ac.ir/browse.php?a_code=A-10-1-59&slc_lang=en&sid=1
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spelling doaj-bc42beb1ab4542d588923db46c3a07162020-11-24T23:13:07ZengIran University of Medical SciencesBasic and Clinical Neuroscience2008-126X2228-74422011-04-01233342A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait SignalYashar Sarbaz0Shahriar Gharibzadeh1Farzad Towhidkhah2Masood Banaie3Ayyoob Jafari4 In this study, we focused on the gait of Parkinson’s disease (PD) and presented a gray box model for it. We tried to present a model for basal ganglia structure in order to generate stride time interval signal in model output for healthy and PD states. Because of feedback role of dopamine neurotransmitter in basal ganglia, this part is modelled by “Elman Network”, which is a neural network structure based on a feedback relation between each layer. Remaining parts of the basal ganglia are modelled with feed-forward neural networks. We first trained the model with a healthy person and a PD patient separately. Then, in order to extend the model generality, we tried to generate the behaviour of all subjects of our database in the model. Hence, we extracted some features of stride signal including mean, variance, fractal dimension and five coefficients from spectral domain. With adding 10% tolerance to above mentioned neural network weights and using genetic algorithm, we found proper parameters to model every person in the used database. The following points may be regarded as clues for the acceptability of our model in simulating the stride signal: the high power of the network for simulating normal and patient states, high ability of the model in producing the behaviour of different persons in normal and patient cases, and the similarities between the model and physiological structure of basal ganglia.http://bcn.iums.ac.ir/browse.php?a_code=A-10-1-59&slc_lang=en&sid=1Basal GangliaArtificial Neural NetworkGenetic Algorithm Simulation
collection DOAJ
language English
format Article
sources DOAJ
author Yashar Sarbaz
Shahriar Gharibzadeh
Farzad Towhidkhah
Masood Banaie
Ayyoob Jafari
spellingShingle Yashar Sarbaz
Shahriar Gharibzadeh
Farzad Towhidkhah
Masood Banaie
Ayyoob Jafari
A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait Signal
Basic and Clinical Neuroscience
Basal Ganglia
Artificial Neural Network
Genetic Algorithm
Simulation
author_facet Yashar Sarbaz
Shahriar Gharibzadeh
Farzad Towhidkhah
Masood Banaie
Ayyoob Jafari
author_sort Yashar Sarbaz
title A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait Signal
title_short A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait Signal
title_full A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait Signal
title_fullStr A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait Signal
title_full_unstemmed A Gray-Box Neural Network Model of Parkinson’s Disease Using Gait Signal
title_sort gray-box neural network model of parkinson’s disease using gait signal
publisher Iran University of Medical Sciences
series Basic and Clinical Neuroscience
issn 2008-126X
2228-7442
publishDate 2011-04-01
description In this study, we focused on the gait of Parkinson’s disease (PD) and presented a gray box model for it. We tried to present a model for basal ganglia structure in order to generate stride time interval signal in model output for healthy and PD states. Because of feedback role of dopamine neurotransmitter in basal ganglia, this part is modelled by “Elman Network”, which is a neural network structure based on a feedback relation between each layer. Remaining parts of the basal ganglia are modelled with feed-forward neural networks. We first trained the model with a healthy person and a PD patient separately. Then, in order to extend the model generality, we tried to generate the behaviour of all subjects of our database in the model. Hence, we extracted some features of stride signal including mean, variance, fractal dimension and five coefficients from spectral domain. With adding 10% tolerance to above mentioned neural network weights and using genetic algorithm, we found proper parameters to model every person in the used database. The following points may be regarded as clues for the acceptability of our model in simulating the stride signal: the high power of the network for simulating normal and patient states, high ability of the model in producing the behaviour of different persons in normal and patient cases, and the similarities between the model and physiological structure of basal ganglia.
topic Basal Ganglia
Artificial Neural Network
Genetic Algorithm
Simulation
url http://bcn.iums.ac.ir/browse.php?a_code=A-10-1-59&slc_lang=en&sid=1
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