Arnab Rakshit scite author profile

Arnab Rakshit

5Publications

40Citation Statements Received

67Citation Statements Given

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125

Affiliations

Jadavpur University, Central University of Punjab

Publications

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A hybrid brain-computer interface for closed-loop position control of a robot arm

Rakshit

Konar

Nagar

2020

IEEE/CAA J. Autom. Sinica

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Brain-Computer Interfacing has currently added a new dimension in assistive robotics. Existing brain-computer interfaces designed for position control applications suffer from two fundamental limitations. First, most of the existing schemes employ open-loop control, and thus are unable to track the positional errors, resulting in failures in taking necessary online corrective actions. There are traces of one or fewer works dealing with closed-loop EEG-based position control. The existing closedloop brain-induced position control schemes employ a fixed order link selection rule, which often creates a bottleneck for timeefficient control. Second, the existing brain-induced position controllers are designed to generate the position response like a traditional first-order system, resulting in a large steady-state error. This paper overcomes the above two limitations by keeping provisions for (Steady-State Visual Evoked Potential induced) link-selection in an arbitrary order as required for efficient control and also to generate a second-order response of the position-control system with gradually diminishing overshoots/undershoots to reduce steady-state errors. Besides the above, the third novelty is to utilize motor imagery and P300 signals to design the hybrid brain-computer interfacing system for the said application with gradually diminishing error-margin by speed reversal at the zero-crossings of positional errors. Experiments undertaken reveal that the steady-state error is reduced to 0.2%. The paper also provides a thorough analysis of stability of the closed-loop system performance using Root Locus technique.

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Discriminating different color from EEG signals using Interval-Type 2 fuzzy space classifier (a neuro-marketing study on the effect of color to cognitive state)

Rakshit

Lahiri

2016

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A Naïve Bayesian approach to lower limb classification from EEG signals

Rakshit

Khasnobish

Tibarewala

2016

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Robotic link position control using brain computer interface

Rakshit

Lahiri

Ghosal

et al. 2016

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A back-propagation through time based recurrent neural network approach for classification of cognitive EEG states

Mazumder

Rakshit

Tibarewala

2015

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Arnab Rakshit

A hybrid brain-computer interface for closed-loop position control of a robot arm

Discriminating different color from EEG signals using Interval-Type 2 fuzzy space classifier (a neuro-marketing study on the effect of color to cognitive state)

A Naïve Bayesian approach to lower limb classification from EEG signals

Robotic link position control using brain computer interface

A back-propagation through time based recurrent neural network approach for classification of cognitive EEG states

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