Implementation of a Smartphone as a Wearable and Wireless Accelerometer and Gyroscope Platform for Ascertaining Deep Brain Stimulation Treatment Efficacy of Parkinson’s Disease through Machine Learning Classification

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Advances in Parkinson's Disease

ISSN Print: 2169-9712
ISSN Online: 2169-9720
www.scirp.org/journal/apd
E-mail: apd@scirp.org

Google-based Impact Factor: 1.36
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"Implementation of a Smartphone as a Wearable and Wireless Accelerometer and Gyroscope Platform for Ascertaining Deep Brain Stimulation Treatment Efficacy of Parkinson’s Disease through Machine Learning Classification"
written by Robert LeMoyne, Timothy Mastroianni, Cyrus McCandless, Christopher Currivan, Donald Whiting, Nestor Tomycz,
published by Advances in Parkinson's Disease, Vol.7 No.2, 2018

has been cited by the following article(s):

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[7]	Interrelation of Precessed Motions of the Gyroscope
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[8]	Data driven methods to support decision making in Deep Brain Stimulation for Parkinson's Disease
	2020

[9]	Parametric evaluation of deep brain stimulation parameter configurations for Parkinson's disease using a conformal wearable and wireless inertial sensor system and …
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[10]	Distinction of an Assortment of Deep Brain Stimulation Parameter Configurations for Treating Parkinson's Disease Using Machine Learning with Quantification …
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[11]	Application of deep learning to distinguish multiple deep brain stimulation parameter configurations for the treatment of Parkinson's disease
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[12]	Evaluation of Machine Learning Algorithms for Classifying Deep Brain Stimulation Respective of 'On'and 'Off'Status
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[13]	Wearable and Wireless Systems for Healthcare: Movement disorder evaluation and deep brain stimulation systems. II
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[14]	Preliminary Network Centric Therapy for Machine Learning Classification of Deep Brain Stimulation Status for the Treatment of Parkinson's Disease with a …
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[15]	Traditional Ordinal Strategies for Establishing the Severity and Status of Movement Disorders, Such as Parkinson's Disease and Essential Tremor
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[16]	Assessment of Machine Learning Classification Strategies for the Differentiation of Deep Brain Stimulation “On” and “Off” Status for Parkinson's Disease Using a …
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[17]	Deep Brain Stimulation for the Treatment of Movement Disorder Regarding Parkinson's Disease and Essential Tremor with Device Characterization
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[18]	Wearable and Wireless Systems with Internet Connectivity for Quantification of Parkinson's Disease and Essential Tremor Characteristics
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[19]	Movement Disorders: Parkinson's Disease and Essential Tremor—A General Perspective
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[20]	Wearable and Wireless Systems for Healthcare II
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[21]	Role of Machine Learning for Classification of Movement Disorder and Deep Brain Stimulation Status
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[22]	Wearable and Wireless Systems for Movement Disorder Evaluation and Deep Brain Stimulation Systems
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[23]	Wearable and Wireless Systems for Healthcare II: Movement Disorder Evaluation and Deep Brain Stimulation Systems
	Smart sensors, measurement and instrumentation, 2019

[24]	Wearable and Wireless Systems for Healthcare I
	2018

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