Outer bounds on the capacity region of broadcast channels are reviewed and a new outer bound is presented.
The performance of a multicell large scale antenna system (LSAS) is conveniently characterized by capacity lower bounds that explicitly account for channel-estimation error, the type of linear spat
The paper describes a capacity planning methodology for radio access networks and presents a case study focusing on the CDMA technology.
An interference channel is said to have strong interference if for all input distributions, the receivers can fully decode the interference.
The capacity regions of vector, or multiple-input multiple-output, Gaussian interference channels are established for very strong interference and aligned strong interference.
To study the effect of lack of up-to-date channel state information at the transmitters (CSITs), we consider two-user binary fading interference channels with Delayed-CSIT.
A discrete memoryless network (DMN) is a memoryless multi-terminal channel with discrete inputs and outputs. A sequence of inner bounds to the DMN capacity region is derived by using code trees.
Previous studies have shown that single-user systems employing n-element antenna arrays at both the transmitter and the receiver can achieve a capacity proportional to n, assuming independent Rayle
Cell splitting/frequency reuse is a fundamental characteristic of cellular networks.
Given a large wireless network deployed within an area, where each node wants to transmit to a random destination node within the network at some given rate, how fast can the sum rate grow as the
