The primal goal of my research is two-fold: (i) develop theoretical frameworks that offer engineering guidelines and insights for the study of practically relevant problems and (ii) design of computationally feasible techniques aimed to achieve the fundamental theoretical performance limits as close as possible. Examples of topics that have been investigated include the design of: (i) high data rates transmission schemes for 5G heterogeneous/cognitive networks; (ii) low-complexity scheduling and selection algorithms for half-duplex relay networks; (iii) privacy-preserving data publishing techniques; (iv) secure communication strategies to limit network vulnerabilities; (v) distributed caching schemes that leverage probabilistic social interactions to realize bandwidth savings. The study of such topics touches upon properties and concepts from several research fields, such as information theory, optimization, network coding and algorithms. For more information about my research, please see my publications.
Note for Prospective Students: I am looking for motivated students to join my research group. If you are interested in joining my research group, please send me an email along with your CV explaining your research interests and background.
News
April 17, 2023
New Papers at ISIT 2023:
M. Jeong, A. Dytso and M. Cardone, "Functional Properties of the Ziv-Zakai Bound with Arbitrary Inputs"
S. Jain, M. Cardone and S. Mohajer, "Probabilistic Group Testing in Distributed Computing with Attacked Workers"
March 17, 2023
Jaimin passed his preliminary written exam!
February 24, 2023
Our paper "Improved Bounds For Efficiently Decodable Probabilistic Group Testing With Unreliable Items" has been accepted for publication at the 2023 IEEE Information Theory Workshop (ITW 2023).
February 22, 2023
Sarthak and Minoh successfully defended their preliminary oral exam!
February 17, 2023
Our paper “When is MIMO Massive in Radar?” has been accepted for publication at the 2023 IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP 2023).