The capacity region of the 3-user Gaussian Interference Channel (GIC) with mixed strong-very strong interference was established in [1]. The mixed strong-very strong interference conditions considered in [1] correspond to the case where, at each receiver, one of the interfering signals is strong and the other is very strong. In this paper, we derive the capacity region of K-user (K ≥ 3) Discrete Memoryless Interference Channels (DMICs) with a mixed strong-very strong interference. This corresponds to the case where, at each receiver one of the interfering signals is strong and the other (K - 2) interfering signals are very strong. This includes, as a special case, the 3-user DMIC with mixed strong-very strong interference. The proof is spec...
We consider bounds for the capacity region of the Gaussian X channel (XC), a system consisting of tw...
Abstract—The capacity of the Gaussian cognitive interference channel, a variation of the classical t...
Abstract—We provide outer bounds on the capacity region of the two-user Gaussian X channel, i.e. a g...
The capacity region of the 3-user Gaussian Interference Channel (GIC) with mixed strong-very strong ...
An interference channel is said to have strong interference if a certain pair of mutual information ...
The capacity region of the K-user Gaussian interference channel (GIC) is a long-standing open proble...
Abstract—This paper derives an outer bound on the capacity region of a general memoryless interferen...
In a multiuser wireless communication system, the transmitters communicate with their intended recei...
The best outer bound on the capacity region of the two-user Gaussian interference channel (GIC) is k...
Abstract — The capacity of a vector Gaussian in-terference channel is investigated. Outer bounds, an...
We derive the two-user capacity region with and without common information for a Gaussian broadcast ...
Part of this work was presented at the IEEE International Workshop on Information Theory (ITW), Camb...
textA central feature of wireless networks is multiple users sharing a common medium. Cellular syste...
Interference is an important issue for wireless communication systems where multiple uncoordinated u...
Abstract—We consider bounds for the capacity region of the Gaussian X channel (XC), a system consist...
We consider bounds for the capacity region of the Gaussian X channel (XC), a system consisting of tw...
Abstract—The capacity of the Gaussian cognitive interference channel, a variation of the classical t...
Abstract—We provide outer bounds on the capacity region of the two-user Gaussian X channel, i.e. a g...
The capacity region of the 3-user Gaussian Interference Channel (GIC) with mixed strong-very strong ...
An interference channel is said to have strong interference if a certain pair of mutual information ...
The capacity region of the K-user Gaussian interference channel (GIC) is a long-standing open proble...
Abstract—This paper derives an outer bound on the capacity region of a general memoryless interferen...
In a multiuser wireless communication system, the transmitters communicate with their intended recei...
The best outer bound on the capacity region of the two-user Gaussian interference channel (GIC) is k...
Abstract — The capacity of a vector Gaussian in-terference channel is investigated. Outer bounds, an...
We derive the two-user capacity region with and without common information for a Gaussian broadcast ...
Part of this work was presented at the IEEE International Workshop on Information Theory (ITW), Camb...
textA central feature of wireless networks is multiple users sharing a common medium. Cellular syste...
Interference is an important issue for wireless communication systems where multiple uncoordinated u...
Abstract—We consider bounds for the capacity region of the Gaussian X channel (XC), a system consist...
We consider bounds for the capacity region of the Gaussian X channel (XC), a system consisting of tw...
Abstract—The capacity of the Gaussian cognitive interference channel, a variation of the classical t...
Abstract—We provide outer bounds on the capacity region of the two-user Gaussian X channel, i.e. a g...