Zahra Sajedinia scite author profile

Zahra Sajedinia

5Publications

13Citation Statements Received

60Citation Statements Given

How they've been cited

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117

Affiliations

Honda (United States), Purdue University West Lafayette, Memorial University of Newfoundland

Publications

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A New Computational Model for Astrocytes and Their Role in Biologically Realistic Neural Networks

Sajedinia

Hélie

2018

Computational Intelligence and Neuroscience

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Recent studies in neuroscience show that astrocytes alongside neurons participate in modulating synapses. It led to the new concept of “tripartite synapse”, which means that a synapse consists of three parts: presynaptic neuron, postsynaptic neuron, and neighboring astrocytes. However, it is still unclear what role is played by the astrocytes in the tripartite synapse. Detailed biocomputational modeling may help generate testable hypotheses. In this article, we aim to study the role of astrocytes in synaptic plasticity by exploring whether tripartite synapses are capable of improving the performance of a neural network. To achieve this goal, we developed a computational model of astrocytes based on the Izhikevich simple model of neurons. Next, two neural networks were implemented. The first network was only composed of neurons and had standard bipartite synapses. The second network included both neurons and astrocytes and had tripartite synapses. We used reinforcement learning and tested the networks on categorizing random stimuli. The results show that tripartite synapses are able to improve the performance of a neural network and lead to higher accuracy in a classification task. However, the bipartite network was more robust to noise. This research provides computational evidence to begin elucidating the possible beneficial role of astrocytes in synaptic plasticity and performance of a neural network.

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Artificial Astrocyte Networks, as Components in Artificial Neural Networks

Sajedinia

2014

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Investigating Users’ Preferences in Adaptive Driving Styles for Level 2 Driving Automation

Sajedinia

Akash

Zheng

et al. 2022

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Simulating Cognitive Deficits in Parkinson’s Disease

Hélie

Sajedinia

2019

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A Computational Model of Team-Level Negotiation: With an Application in Creative Problem Solving

Sajedinia¹

2021

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Zahra Sajedinia

A New Computational Model for Astrocytes and Their Role in Biologically Realistic Neural Networks

Artificial Astrocyte Networks, as Components in Artificial Neural Networks

Investigating Users’ Preferences in Adaptive Driving Styles for Level 2 Driving Automation

Simulating Cognitive Deficits in Parkinson’s Disease

A Computational Model of Team-Level Negotiation: With an Application in Creative Problem Solving

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