Prathamesh Dalvi scite author profile

Prathamesh Dalvi

3Publications

63Citation Statements Received

64Citation Statements Given

How they've been cited

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Affiliations

Birla Institute of Technology and Science, Pilani - Goa Campus

Publications

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Fast gravitational wave radiometry using data folding

2015

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Gravitational Waves (GWs) from the early universe and unresolved astrophysical sources are expected to create a stochastic GW background (SGWB). The GW radiometer algorithm is well suited to probe such a background using data from ground based laser interferometric detectors. Radiometer analysis can be performed in different bases, e.g., isotropic, pixel or spherical harmonic. Each of these analyses possesses a common temporal symmetry which we exploit here to fold the whole dataset for every detector pair, typically a few hundred to a thousand days of data, to only one sidereal day, without any compromise in precision. We develop the algebra and a software pipeline needed to fold data, accounting for the effect of overlapping windows and non-stationary noise. We implement this on LIGO's fifth science run data and validate it by performing a standard anisotropic SGWB search on both folded and unfolded data. Folded data not only leads to orders of magnitude reduction in computation cost, but it results in a conveniently small data volume of few gigabytes, making it possible to perform an actual analysis on a personal computer, as well as easy movement of data. A few important analyses, yet unaccomplished due to computational limitations, will now become feasible. Folded data, being independent of the radiometer basis, will also be useful in reducing processing redundancies in multiple searches and provide a common ground for mutual consistency checks. Most importantly, folded data will allow vast amount of experimentation with existing searches and provide substantial help in developing new strategies to find unknown sources.

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Convolutional Neural Network based Bidirectional Sign Language Translation System

Fernandes¹,

Dalvi²,

Junnarkar³

et al. 2020

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Offline Imitation Learning for Robotic Control using Contrastive methods

Barhate¹,

Bhave²,

Dalvi³

et al. 2021

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