R. Tannious and A. Nosratinia, ``The interference channel with MIMO relay: degress of freedom,'' IEEE International Symposium on Information Theory, Toronto, July 2008, pp. 1908-1912. 2008 - Publication
N. Bazargani and A. Nosratinia, ``Joint maximum likelihood estimation of fMRI hemodynamic response function and activation'' Asilomar Conference on Signals, Systems, and Computers, Pacific Grove, CA, Oct. 2008. 2008 - Publication
R. Tannious and A. Nosratinia, `` Spectrally efficient relay selection protocols in wireless networks,'' Proc. IEEE ICASSP, Las Vegas, NV, 2008, pp.3225--3228. 2008 - Publication
R. Tannious and A. Nosratinia, ``Spectrally efficient relay selection with limited feedback,'' IEEE Journal on Selected Areas in Communication, vol. 26, no. 8, Oct. 2008, pp. 1419-1428. 2008 - Publication
F. Namin and A. Nosratinia, ``Resource allocation for distributed detection in sensor networks,'' Asilomar Conference on Signals, Systems, and Computers, Pacific Grove, CA, Oct. 2008. 2008 - Publication
F. Namin and A. Nosratinia, ``Pragmatic lifetime maximization of cooperative sensor networks via a decomposition approach,'' Proc. IEEE ICASSP, Las Vegas, NV, 2008. 2008 - Publication
K. Ausavapattanakun and A. Nosratinia, Analysis of Go-Back-N ARQ in block fading channels, IEEE Trans. Wireless Communications. . 6, no. 8, August 2007 pp. 2793 - 2797. 2007 - Publication
S. Sanayei and A. Nosratinia, Antenna selection in keyhole channels, IEEE Trans. Communications, vol. 55, no. 3, March 2007, pp. 404-408. 2007 - Publication
S. Sanayei and A. Nosratinia, Opportunistic beamforming with limited feedback, IEEE Trans. Wireless Communications, vol. 6, no. 8, August 2007 pp. 2765 - 2771. 2007 - Publication
R. Tannious and A. Nosratinia, Relay channel with private messages, IEEE Trans. Information Theory, vol. 53, no. 10, Oct. 2007, pp. 3777 - 3785. 2007 - Publication
If you’ve ever wished your cellphone had greater range, better sound quality and longer battery life, then rest assured Dr. Aria Nosratinia is doing what he can to make your dream come true. And for his efforts, the UT Dallas professor has been named an IEEE fellow, one of the highest honors bestowed by the Institute of Electrical and Electronics Engineers. The tribute recognizes him for more than 10 years of work in communication and information theory, particularly his ongoing work on what’s known as cooperative wireless communications.
Two professors from The University of Texas at Dallas were named to the 2016 list of Highly Cited Researchers
from Clarivate Analytics, formerly the Intellectual Property and Science business of Thomson Reuters.
Dr. Aria Nosratinia
of the Erik Jonsson School of Engineering and Computer Science
and Dr. Mike Peng
of the Naveen Jindal School of Management
are among the researchers recognized for having a significant global impact within their respective fields of study.
The list contains about 3,000 researchers in 21 fields of the sciences and social sciences. This year, the citation analysis focused on contemporary research achievement: Only highly cited papers in science and social sciences journals indexed in the Web of Science Core Collection during 2004-2014 were surveyed.
To find methods that can improve wireless communication, UT Dallas electrical engineering professor Dr. Aria Nosratinia
is investigating the technology that keeps us connected.
To support this research, the National Science Foundation has awarded three grants totaling more than $2 million this fall.
“With the increased number of wireless devices, including future expectations for the Internet of Things, wireless space will become increasingly crowded. Addressing interference is crucial to the future of wireless Internet,” said Nosratinia, who is the associate head of the electrical engineering department in the Erik Jonsson School of Engineering and Computer Science
RICHARDSON, Texas (Nov. 15, 2004) – A group of engineering professors at The University of Texas at Dallas (UTD) has received two grants from the National Science Foundation (NSF) totaling $950,000 to conduct advanced research of wireless and optical communications networks.
One grant, a four-year, $450,000 award, will fund the search for “smarter” methods and principles that could enable wireless devices, including cellular phones and laptops, to act as potential relay points for other users’ transmissions, creating what has been termed “cooperative wireless networks” and improving the overall performance of wireless communications.