Hrishikesh Srinivas scite author profile

We propose an optical electrode ’optrode’ sensor array for biopotential measurements. The transduction mechanism is based on deformed helix ferroelectric liquid crystals which realign, altering the optrode’s light reflectance properties, relative to applied potential fields of biological cells and tissue. A computational model of extracellular potential recording by the optrode including the electro-optical transduction mechanism is presented, using a combination of time-domain and frequency-domain finite element analysis. Simulations indicate that the device has appropriate temporal response to faithfully transduce neuronal spikes, and spatial resolution to capture impulse propagation along a single neuron. These simulations contribute to the development of multi-channel optrode arrays for spatio-temporal mapping of electric events in excitable biological tissue.

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Modeling and Experimental Measurement of Power Efficiency for Power-Limited SDM Submarine Transmission Systems

Srinivas

Downie

Hurley

et al. 2021

J. Lightwave Technol.

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Experimental Characterization of Power Efficiency for Power-Limited SDM Submarine Transmission Systems

Downie

Hurley

Liang

et al. 2020

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Detection of Power-Lines in Complex Natural Surroundings

Bhujade¹,

Adithya²,

Srinivas³

et al. 2013

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Power transmission line inspection using Unmanned Aerial Vehicles (UAV) is taking off as an exciting solution due to advances in sensors and flight technology. Extracting power-lines from aerial images, taken from the UAV, having complex natural surroundings is a critical task in the above problem. In this paper we propose an approach for suppressing natural surrounding that leads to power line detection. The results of applying our method on real-life video frames taken from a UAV demonstrate that our approach is very effective. We believe that our approach can be easily used for line detection in any other real outdoor video as well.

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