Indrani Kar scite author profile

A theoretical quantum brain model is proposed using a nonlinear Schroedinger wave equation. The model proposes that there exists a quantum process that mediates the collective response of a neural lattice (classical brain). The model is used to explain eye movements when tracking moving targets. Using a Recurrent Quantum Neural Network(RQNN) while simulating the quantum brain model, two very interesting phenomena are observed. First, as eye sensor data is processed in a classical brain, a wave packet is triggered in the quantum brain. This wave packet moves like a particle. Second, when the eye tracks a fixed target, this wave packet moves not in a continuous but rather in a discrete mode. This result reminds one of the saccadic movements of the eye consisting of 'jumps' and 'rests'. However, such a saccadic movement is intertwined with smooth pursuit movements when the eye has to track a dynamic trajectory. In a sense, this is the first theoretical model explaining the experimental observation reported concerning eye movements in a static scene situation. The resulting prediction is found to be very precise and efficient in comparison to classical objective modeling schemes such as the Kalman filter.

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Real-Time Coordination of Electric Vehicles to Support the Grid at the Distribution Substation Level

Singh

Thirugnanam

Kumar

et al. 2015

IEEE Systems Journal

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Improved event‐triggered adaptive control of non‐linear uncertain networked systems

Issa

Chakravarty

Kar

2019

IET Control Theory & Applications

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Indrani Kar

Controller design for a class of nonlinear MIMO coupled system using multiple models and second level adaptation

Implementation of Vehicle to Grid Infrastructure Using Fuzzy Logic Controller

A Multi Charging Station for Electric Vehicles and Its Utilization for Load Management and the Grid Support

Influence of EV on grid power quality and optimizing the charging schedule to mitigate voltage imbalance and reduce power loss

Direct adaptive neural control for affine nonlinear systems

A Recurrent Quantum Neural Network Model to Describe Eye Tracking of Moving Targets

Real-Time Coordination of Electric Vehicles to Support the Grid at the Distribution Substation Level

Improved event‐triggered adaptive control of non‐linear uncertain networked systems

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