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Main Author: Palika Charitha
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.19364950
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author Palika Charitha
author_facet Palika Charitha
contents <p> Release: Initial Version (v1.0)</p> <p>This release provides the first stable version of the Basal Ganglia & STN–GPe Simulation Workspace, developed for studying neural dynamics, decision-making, and stimulation strategies in Parkinson's disease.</p> <p> Overview</p> <p>The repository integrates computational neuroscience and dynamical systems modeling to investigate how basal ganglia circuits and STN–GPe dynamics influence behavior under normal, Parkinsonian, and Deep Brain Stimulation (DBS) conditions. In addition, it includes simulations of standard 130 Hz DBS, closed-loop DBS, and a novel open-loop stimulation protocol, enabling comparison of their effects on network synchronization and decision-making performance.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_19364950
institution Zenodo
language
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle CharithaPalika/BasalGanglia_DBS_model: Harnessing DBS to improve Exploration and Optimize Decision-Making through STN-GPe Desynchronization
Palika Charitha
<p> Release: Initial Version (v1.0)</p> <p>This release provides the first stable version of the Basal Ganglia & STN–GPe Simulation Workspace, developed for studying neural dynamics, decision-making, and stimulation strategies in Parkinson's disease.</p> <p> Overview</p> <p>The repository integrates computational neuroscience and dynamical systems modeling to investigate how basal ganglia circuits and STN–GPe dynamics influence behavior under normal, Parkinsonian, and Deep Brain Stimulation (DBS) conditions. In addition, it includes simulations of standard 130 Hz DBS, closed-loop DBS, and a novel open-loop stimulation protocol, enabling comparison of their effects on network synchronization and decision-making performance.</p>
title CharithaPalika/BasalGanglia_DBS_model: Harnessing DBS to improve Exploration and Optimize Decision-Making through STN-GPe Desynchronization
url https://doi.org/10.5281/zenodo.19364950

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