The partially cooperative relay broadcast channel (RBC) is studied, where a source transmits to two users and one user also acts as a relay node to assist broadcast communication.
This paper studies the fundamental operational limits of a class of Gaussian multicast channels with an interference setting.
Since the first deployments of fiber-optic communication systems three decades ago, the capacity carried by a singlemode optical fiber has increased by a staggering 10 thousand times.
The paper discusses the effect of capacity unbalance on noise in telephone cables due to induction from neighbouring power circuits.
We characterize the capacity-achieving distribution for a class of non-Gaussian additive noise channels, when the transmitter is subject to an "average" power constraint.
We characterize the capacity-achieving input covariance for multi-antenna channels known instantaneously at the receiver and in distribution at the transmitter.
This paper starts a systematic study of capacity-achieving sequences of low-density parity-check codes for the erasure channel.
The simultaneous use of multiple transmit and receive antennas can unleash very large capacity increases in rich multipath environments.
The design of space-time codes that are capable of approaching the capacity of multiple-input-single-output (MISO) antenna systems is a challenging problem, yet one of high practical importance.
This system affords the following facilities: fifteen V.F. full-duplex telegraph circuits and two carrier-telephone channels in addition to the usual audio-telephone outlets.
