152 research outputs found
On Capacity of the Dirty Paper Channel with Fading Dirt in the Strong Fading Regime
The classical writing on dirty paper capacity result establishes that full
interference pre-cancellation can be attained in Gelfand-Pinsker problem with
additive state and additive white Gaussian noise. This result holds under the
idealized assumption that perfect channel knowledge is available at both
transmitter and receiver. While channel knowledge at the receiver can be
obtained through pilot tones, transmitter channel knowledge is harder to
acquire. For this reason, we are interested in characterizing the capacity
under the more realistic assumption that only partial channel knowledge is
available at the transmitter. We study, more specifically, the dirty paper
channel in which the interference sequence in multiplied by fading value
unknown to the transmitter but known at the receiver. For this model, we
establish an approximate characterization of capacity for the case in which
fading values vary greatly in between channel realizations. In this regime,
which we term the strong fading regime, the capacity pre-log factor is equal to
the inverse of the number of possible fading realizations
Capacity Outer Bound and Degrees of Freedom of Wiener Phase Noise Channels with Oversampling
The discrete-time Wiener phase noise channel with an integrate-and-dump
multi-sample receiver is studied.
A novel outer bound on the capacity with an average input power constraint is
derived as a function of the oversampling factor.
This outer bound yields the degrees of freedom for the scenario in which the
oversampling factor grows with the transmit power as .
The result shows, perhaps surprisingly, that the largest pre-log that can be
attained with phase modulation at high signal-to-noise ratio is at most .Comment: 5 pages, 1 figure, Submitted to Intern. Workshop Inf. Theory (ITW)
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