Follow
Arash Gholami Davoodi
Arash Gholami Davoodi
Apple, Carnegie Mellon University, University of California Irvine
Verified email at andrew.cmu.edu
Title
Cited by
Cited by
Year
Beyond the imitation game: Quantifying and extrapolating the capabilities of language models
A Srivastava, A Rastogi, A Rao, AAM Shoeb, A Abid, A Fisch, AR Brown, ...
Transactions on Machine Learning Research (TMLR), 2023
8742023
Aligned image sets under channel uncertainty: Settling conjectures on the collapse of degrees of freedom under finite precision CSIT
AG Davoodi, SA Jafar
IEEE Transactions on Information Theory 62 (10), 5603-5618, 2016
174*2016
GDoF region of the MISO BC: Bridging the gap between finite precision and perfect CSIT
AG Davoodi, B Yuan, SA Jafar
IEEE Transactions on Information Theory 64 (11), 7208-7217, 2018
58*2018
Transmitter cooperation under finite precision CSIT: A GDoF perspective
AG Davoodi, SA Jafar
IEEE Transactions on Information Theory 63 (9), 6020-6030, 2016
542016
Generalized Degrees of Freedom of the Symmetric User Interference Channel Under Finite Precision CSIT
AG Davoodi, SA Jafar
IEEE Transactions on Information Theory 63 (10), 6561-6572, 2017
482017
Sum-set inequalities from aligned image sets: Instruments for robust GDoF bounds
AG Davoodi, SA Jafar
IEEE Transactions on Information Theory 66 (10), 6458-6487, 2020
292020
Finding general and explicit solutions (2+ 1) dimensional Broer–Kaup–Kupershmidt system nonlinear equation by exp-function method
AG Davodi, AG Davodi, A Asgari
Applied Mathematics and computation 217 (4), 1415-1420, 2010
232010
Degrees of Freedom Region of the (M, N₁, N₂) MIMO Broadcast Channel With Partial CSIT: An Application of Sum-Set Inequalities Based on Aligned Image Sets
AG Davoodi, S Jafar
IEEE Transactions on Information Theory 66 (10), 6256-6279, 2020
222020
Optimum Power Allocations for Fading Decode-and-Forward Relay Channel
AG Davoodi, MJ Emadi, MR Aref
arXiv preprint arXiv:1202.1120, 2012
22*2012
Solutions for the double Sine‐Gordon equation by Exp‐function, Tanh, and extended Tanh methods
AG Davodi, AG Davodi
Numerical Methods for Partial Differential Equations: An International …, 2010
192010
Optimality of simple layered superposition coding in the 3 user MISO BC with finite precision CSIT
AG Davoodi, S Jafar
IEEE Transactions on Information Theory 65 (11), 7181-7207, 2019
182019
Network coherence time matters—Aligned image sets and the degrees of freedom of interference networks with finite precision CSIT and perfect CSIR
AG Davoodi, SA Jafar
IEEE Transactions on Information Theory 64 (12), 7780-7791, 2018
172018
-User Symmetric MIMO Interference Channel Under Finite Precision CSIT: A GDoF Perspective
AG Davoodi, SA Jafar
IEEE Transactions on Information Theory 65 (2), 1126-1136, 2018
152018
Aligned image sets and the generalized degrees of freedom of symmetric MIMO interference channel with partial CSIT
AG Davoodi, S Jafar
IEEE Transactions on Information Theory 65 (1), 406-417, 2018
13*2018
Lattice coding for multiple access channels with common message and additive interference
MF Pourbabaee, MJ Emadi, AG Davoodi, MR Aref
2012 IEEE Information Theory Workshop, 412-416, 2012
72012
DoF region of the MIMO interference channel with partial CSIT
B Yuan, AG Davoodi, SA Jafar
2017 IEEE 18th International Workshop on Signal Processing Advances in …, 2017
62017
DoF Region of the Decentralized MIMO Broadcast Channel—How many informed antennas do we need?
A Bazco-Nogueras, A Davoodi, P de Kerret, D Gesbert, N Gresset, S Jafar
2020 IEEE International Symposium on Information Theory (ISIT), 1468-1473, 2020
32020
CSIT thresholds for collapse of degrees of freedom in wireless networks
AG Davoodi, SA Jafar
2018 IEEE International Conference on Communications (ICC), 1-6, 2018
22018
Aligned Image Sets: Instruments for Robust GDoF Bounds
A Gholamidavoodi
UC Irvine, 2018
2*2018
ForestDSH: a universal hash design for discrete probability distributions
AG Davoodi, S Chang, HG Yoo, A Baweja, M Mongia, H Mohimani
Data Mining and Knowledge Discovery 35, 748-795, 2021
12021
The system can't perform the operation now. Try again later.
Articles 1–20