Shlomo Shamai
Technion – Israel Institute of Technology
858 Papers
6.2K Citations
Shlomo Shamai is an academic researcher from Technion – Israel Institute of Technology. The author has contributed to research in topics: Communication channel & Decoding methods. The author has an hindex of 85, co-authored 800 publications. Previous affiliations of Shlomo Shamai include New Jersey Institute of Technology & Bell Labs.
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Papers
Integrated Communication and Receiver Sensing with Security Constraints on Message and State
TL;DR: In this article , the state-dependent wiretap channel with non-causal channel state informations at the encoder in an integrated sensing and communications (ISAC) scenario is studied.
A layered lattice coding scheme for a class of three user Gaussian interference channels
S. Sridharan,Amin Jafarian,Sriram Vishwanath,Syed A. Jafar,Shlomo Shamai +4 more
- 01 Dec 2008
TL;DR: The layered lattice coding is shown to achieve more than one degree of freedom for a class of interference channels and also achieves rates which are better than the rates obtained using the Han-Kobayashi coding scheme.
The Capacity Region of the Degraded MIMO Compound Broadcast Channel
H. Weingarten,Tie Liu,Shlomo Shamai,Yossef Steinberg,Pramod Viswanath +4 more
- 24 Jun 2007
TL;DR: A new extremal inequality for information theory is brought to bear and a channel enhancement technique is utilized to enhance the capacity region of a compound multi- antenna broadcast channel.
Information rates by over-sampling the sign of a bandlimited process
Shlomo Shamai
- 01 Jul 1994
TL;DR: This model may be used to gain insight into the effect of finite resolution on the information conveyed by the sign of a bandlimited process, and also to assess the limiting performance of certain oversampling-based communication systems.
Interference alignment on the deterministic channel and application to fully connected AWGN interference networks
Viveck R. Cadambe,Syed A. Jafar,Shlomo Shamai +2 more
- 05 May 2008
TL;DR: The first known example of a fully connected Gaussian K-user interference network with single antenna nodes, real, nonzero and constant channel coefficients, and no propagation delays where the degrees of freedom outerbound is achieved is created.