Nambi Narayanan scite author profile

Millions of people around the world are affected by different kinds of epileptic seizures. A deep brain stimulator is now claimed to be one of the most promising tools to control severe epileptic seizures. The present study proposes Hodgkin-Huxley (HH) model-based Active Fault Tolerant Deep Brain Stimulator (AFTDBS) for brain neurons to suppress epileptic seizures against ion channel conductance variations using a Deep Neural Network (DNN). The AFTDBS contains the following three modules: (i) Detection of epileptic seizures using black box classifiers such as Support Vector Machine (SVM) and K-Nearest Neighbor (KNN), (ii) Prediction of ion channels conductance variations using Long Short-Term Memory (LSTM), and (iii) Development of Reconfigurable Deep Brain Stimulator (RDBS) to control epileptic spikes using Proportional Integral (PI) Controller and Model Predictive Controller (MPC). Initially, the synthetic data were collected from the HH model by varying ion channel conductance. Then, the seizure was classified into four groups namely, normal and epileptic due to variations in sodium ion-channel conductance, potassium ion-channel conductance, and both sodium and potassium ion-channel conductance. In the present work, current controlled deep brain stimulators were designed for epileptic suppression. Finally, the closed-loop performances and stability of the proposed control schemes were analyzed. The simulation results demonstrated the efficacy of the proposed DNN-based AFTDBS.

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Development of Reconfigurable Control Schemes for Epileptic Seizures

Narayanan

Subbian

2021

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RNN based Disturbance Rejection Model Predictive Control for Waste Heat LTTD Process

Pattnaik

Subbian

Narayanan

et al. 2022

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Machine Learning for Classification and Control of Cardiac Arrhythmias

Subbian

Govindaraju

Narayanan

2019

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Nambi Narayanan

Development of non-linear model for human heart

Active fault tolerant deep brain stimulator for epilepsy using deep neural network

Development of Reconfigurable Control Schemes for Epileptic Seizures

RNN based Disturbance Rejection Model Predictive Control for Waste Heat LTTD Process

Machine Learning for Classification and Control of Cardiac Arrhythmias

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