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Transmit beamforming methods for improved received signal-to-noise ratio in equivalent isotropic radiated power-constrained systems

Transmit beamforming methods for improved received signal-to-noise ratio in equivalent isotropic radiated power-constrained systems

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© The Institution of Engineering and Technology
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A novel methodology of transmit beamforming for systems subjected to equivalent isotropic radiated power restrictions is presented in this paper. Based on the properties of the radiation due to the optimal beamforming method compared with that due to the eigen-beamforming, beamforming vectors are designed by perturbing the scaled eigen-beamforming vector such that the peak-to-average power ratio of the spatial radiation is reduced. Two algorithms incorporating this general methodology are presented. With a computational complexity less than the optimal method, both are shown to outperform conventional sub-optimal beamforming methods. For example, in an investigated system with four transmit and one receive antennas, performance is improved by more than 1 dB at a packet-error-rate of 10−3.

Inspec keywords: computational complexity; array signal processing; transmitting antennas; receiving antennas; eigenvalues and eigenfunctions

Other keywords: beamforming vectors; computational complexity; peak-to-average power ratio; optimal beamforming method; receive antennas; transmit antenna; transmit beamforming methods; equivalent isotropic radiated power-constrained systems; signal-to-noise ratio; eigen-beamforming

Subjects: Signal processing and detection; Single antennas; Engineering mathematics and mathematical techniques

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