We take a capacity view of a number of different space-time coding (STC) schemes.
Communication systems transmitting over frequency-selective channels generally employ an equalizer to recover the transmitted sequence corrupted by intersymbol interference (ISI).
In this paper, we deal with the capacity behavior of a new scheme, information-guided channel-hopping, which is proposed for high information rate communication over Rayleigh fading channel using m
Outer and inner bounds are established on the capacity region of two-sender, two-receiver interference channels where one transmitter knows both messages.
An achievable region, outer bounds and a capacity result are established for two-sender two-receiver interference channels with one cognitive transmitter.
Inner and outer bounds are established on the capacity region of two-sender, two-receiver interference channels (IC) where one transmitter knows both messages.
In the open-loop multiple input multiple output (MIMO) multicast network, space-time block coding (STBC) is a remarkable transmission scheme with an elegant mathematical solution and full diversity
The capacity region of a multiple-input-multiple-output interference channel (MIMO IC) in which the channel matrices are square and invertible is studied.
The capacity of a network in which a multiple access channel (MAC) generates interference to a single-user channel is studied.
In this paper we study the fundamental limits on the data rate of multiple antenna systems in a Rayleigh fading environment.
