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ORCIDKaushallya Adhikari
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2020 – today
- 2025
[j16]Christopher J. Bell
, Kaushallya Adhikari, Andrew Brown:
Convolutional Neural Networks for Direction of Arrival Estimation Compared to Classical Estimators and Bounds. IEEE Access 13: 25533-25545 (2025)- [j15]Steven Kay, Kaushallya Adhikari, Bo Tang:
A Nonparametric Data-Driven Classifier Based on the Cumulant Generating Function. IEEE Trans. Signal Process. 73: 519-533 (2025) - 2024
- [j14]Showrov Rahman, Kaushallya Adhikari:
Comparative Analysis of SVM and CNN for Sonar Signal Classification Using Sparse Arrays. IEEE Access 12: 59818-59830 (2024) - [j13]Kaushallya Adhikari, Steven Kay, Russell Costa:
Prewhitening Followed by Sampling Versus Sampling Followed by Prewhitening for Detection. IEEE Access 12: 179478-179487 (2024) - [j12]Daniel D. Sartori, Kaushallya Adhikari, Richard J. Vaccaro:
Second-order optimal subspace estimation for ESPRIT-like DOA estimation. Signal Process. 217: 109323 (2024) - [c15]Kaushallya Adhikari, Ridhab Al Kinani:
Model Order Estimation for Sensor Array Observations using a Neural Network. AIIoT 2024: 402-407 - [c14]Zaynah L. Kalaoun, Kaushallya Adhikari, Steven Kay:
Minimum Distance Receiver using Dynamic Programming-Based Sparse Samples. AIIoT 2024: 479-484 - [c13]Rafael Da Luz Barbosa, Kaushallya Adhikari, Walter G. Besio:
SVM for Classification of Ten-Finger Imagined Movements using tEEG Signals. AIIoT 2024: 557-561 - [c12]Kaan Icer, Showrov Rahman, Kaushallya Adhikari:
Autoregressive Modeling of Time Series in Renewable Energy Systems. UEMCON 2024: 372-378 - 2023
- [j11]Kaushallya Adhikari, Ridhab Al Kinani:
Transformation of a circular array to a linear array with a Vandermonde structure. Digit. Signal Process. 140: 104098 (2023) - [j10]Kaushallya Adhikari, Steven Kay:
An Exact Solution for Sparse Sampling for Optimal Detection of Known Signals in Gaussian Noise. IEEE Signal Process. Lett. 30: 369-373 (2023) - [c11]Thao Pham, Kaushallya Adhikari, Walter G. Besio:
Deep Learning-Based Classification of Finger Movements using tEEG and EEG Signals. AIIoT 2023: 120-126 - [c10]Ridhab Al Kinani, Kaushallya Adhikari:
Probability Density Functions of the Subspace-Based Direction of Arrival Estimators. CCWC 2023: 1191-1197 - [c9]Showrov Rahman, Yashaswini Mandalam, Kaushallya Adhikari:
Performance Analysis of SVM-Based DOA Estimation for Uniform Linear Arrays. UEMCON 2023: 339-345 - [c8]Christopher J. Bell, Kaushallya Adhikari, Lauren A. Freeman:
Convolutional Neural Network-Based Regression for Direction of Arrival Estimation. UEMCON 2023: 373-379 - 2022
- [j9]Kaushallya Adhikari, Richard J. Vaccaro, Daniel D. Sartori:
Shift invariant sparse arrays and their optimal signal and noise subspaces. Signal Process. 198: 108579 (2022) - [c7]Kaushallya Adhikari:
Shift-Invariant Structure-Imposed Convolutional Neural Networks for Direction of Arrival Estimation. AIIoT 2022: 179-186 - [c6]Kaushallya Adhikari, Thao Pham, Joanne Hall, Alexander Rotenberg, Walter G. Besio:
Language Mapping using tEEG and EEG Data with Convolutional Neural Networks. EMBC 2022: 4060-4063 - [c5]Kevin Beshara-Flynn, Kaushallya Adhikari:
Effects of Signal and Array Parameters on MSE and CRB in DOA Estimation. UEMCON 2022: 373-379 - 2021
- [j8]Kaushallya Adhikari, Blaine M. Harker, Thomas A. Wettergren, Lauren A. Freeman, Simon E. Freeman:
Array Shading to Maximize Deflection Coefficient for Broadband Signal Detection With Conventional Beamforming. IEEE Access 9: 79343-79352 (2021) - [j7]Kaushallya Adhikari, Steven Kay:
Optimal Sparse Sampling for Detection of a Known Signal in Nonwhite Gaussian Noise. IEEE Signal Process. Lett. 28: 1908-1912 (2021) - [c4]Kaushallya Adhikari, David A. Hague:
Matched Illumination Waveforms Using Multi-Tone Sinusoidal Frequency Modulation. SSP 2021: 221-225 - [c3]Kaushallya Adhikari:
Absolute Eigenvalues-Based Covariance Matrix Estimation for a Sparse Array. SSP 2021: 401-405 - 2020
- [j6]Kaushallya Adhikari, John R. Buck:
Gaussian Signal Detection With Product Arrays. IEEE Access 8: 36256-36266 (2020)
2010 – 2019
- 2019
- [j5]Kaushallya Adhikari, Benjamin Drozdenko:
Design and Statistical Analysis of Tapered Coprime and Nested Arrays for the Min Processor. IEEE Access 7: 139601-139615 (2019) - [j4]Kaushallya Adhikari, Benjamin Drozdenko:
Symmetry-Imposed Rectangular Coprime and Nested Arrays for Direction of Arrival Estimation With Multiple Signal Classification. IEEE Access 7: 153217-153229 (2019) - 2017
- [j3]Kaushallya Adhikari, John R. Buck:
Spatial Spectral Estimation with Product Processing of a Pair of Colinear Arrays. IEEE Trans. Signal Process. 65(9): 2389-2401 (2017) - 2015
- [c2]Kaushallya Adhikari, John R. Buck:
Gaussian signal detection by coprime sensor arrays. ICASSP 2015: 2379-2383 - 2014
- [j2]Kaushallya Adhikari, John R. Buck, Kathleen E. Wage:
Extending coprime sensor arrays to achieve the peak side lobe height of a full uniform linear array. EURASIP J. Adv. Signal Process. 2014: 148 (2014) - 2013
- [c1]Kaushallya Adhikari, John R. Buck, Kathleen E. Wage:
Beamforming with extended co-prime sensor arrays. ICASSP 2013: 4183-4186 - 2011
- [j1]Igal Bilik, Kaushallya Adhikari, John R. Buck:
Shannon Capacity Bound on Mobile Station Localization Accuracy in Urban Environments. IEEE Trans. Signal Process. 59(12): 6206-6216 (2011)
Coauthor Index
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