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Partial Zero-forcing Precoding for Interference Channels with Limited Transmitter CooperationHari, Siddarth 01 January 2011 (has links)
This thesis looks at the problem of designing a coding strategy for interference channels with rate-limited transmitter cooperation. We first consider a simple communication model in which the classic two-user
Gaussian interference channel is augmented by rate-limited conferencing links between the transmitters. The main contribution is a partial zero-forcing precoding strategy based on a shared-private rate
splitting scheme at the transmitter, in which each transmitter communicates
part of its message to the other transmitter, and subsequently
partially pre-subtracts the interfering signal using a zero-forcing
precoder. We extend the proposed strategy to a class of multiuser interference channels, and outline a distributed algorithm to compute the precoder coefficients. The partial zero-forcing precoding strategy is shown to be particularly effective in certain high SNR/INR regimes, and simulation results for a multicell system highlight the cooperation gain due to the proposed strategy.
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Partial Zero-forcing Precoding for Interference Channels with Limited Transmitter CooperationHari, Siddarth 01 January 2011 (has links)
This thesis looks at the problem of designing a coding strategy for interference channels with rate-limited transmitter cooperation. We first consider a simple communication model in which the classic two-user
Gaussian interference channel is augmented by rate-limited conferencing links between the transmitters. The main contribution is a partial zero-forcing precoding strategy based on a shared-private rate
splitting scheme at the transmitter, in which each transmitter communicates
part of its message to the other transmitter, and subsequently
partially pre-subtracts the interfering signal using a zero-forcing
precoder. We extend the proposed strategy to a class of multiuser interference channels, and outline a distributed algorithm to compute the precoder coefficients. The partial zero-forcing precoding strategy is shown to be particularly effective in certain high SNR/INR regimes, and simulation results for a multicell system highlight the cooperation gain due to the proposed strategy.
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