Shashwat Singh scite author profile

In recent years, improvements in Deep Learning (DL) techniques towards Gravitational Wave (GW) astronomy have led to a significant rise in the development of various classification algorithms that have been successfully employed to extract GWs of binary blackhole merger events from noisy time-series data. However, the success of these models is constrained by the length of time-sample and the class of GW source: binary blackhole and neutron star binaries to some extent. In this work, we intended to advance the boundaries of DL techniques using Convolutional Neural Networks, to go beyond binary classification and predict the physical parameters of the events. We aim to propose an alternative method that can be employed for realtime detection and parameter prediction. The DL model we present has been trained on 12s of data to predict the GW source parameters if detected. During training, the maximum accuracy attained was 90.93%, with a validation accuracy of 89.97%.

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Electronically Tunable Grounded Capacitance Multiplier

Singh

Jatin

Pandey

et al. 2020

IETE Journal of Research

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Adaptive biased current differencing trans-conductance amplifier

Singh

Jain

Pandey

et al. 2021

AEU - International Journal of Electronics and Communications

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CNN-based device-free health monitoring and prediction system using WiFi signals

Kumar

Singh

Rawal

et al. 2022

Int. j. inf. tecnol.

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Shashwat Singh

Air Impingement Cooling of Cylindrical Objects Using Slot Jets

Deep learning for estimating parameters of gravitational waves

Electronically Tunable Grounded Capacitance Multiplier

Adaptive biased current differencing trans-conductance amplifier

CNN-based device-free health monitoring and prediction system using WiFi signals

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