Multi-antenna system using adaptive beamforming
First Claim
1. A multi-antenna system, comprising:
- a phase shift unit including a plurality of phase shifters configured to shift phases of signals received from a plurality of antennas, respectively, based on a preset weight vector;
a signal combination unit coupled to the phase shifters and configured to receive phase-shifted signals from the phase shifters to combine the phase-shifted signals;
a frequency down-converter configured to down-convert a signal output from the signal combination unit into a baseband signal;
an analog-to-digital (A/D) converter configured to convert the baseband signal output from the frequency down-converter into a digital signal; and
a beamforming control unit coupled to the A/D converter and configured to receive the digital signal to change the preset weight vector currently set in the phase shift unit based on a reception signal-to-noise ratio (SNR) of the digital signal, whereinthe beamforming control unit comprises;
a codebook comprising a plurality of preset weight vectors which are preset for beamforming of the antennas;
an SNR measurement unit coupled to the A/D converter and configured to measure the reception SNR of the digital signal;
an SNR comparison unit coupled to the SNR measurement unit and configured to compare the reception SNR from the SNR measurement unit with a preset threshold SNR; and
a weight vector control unit coupled to the phase shifter unit and configured toinitially set the preset weight vector,maintain the preset weight vector currently set in the phase shift unit when the reception SNR is higher than the threshold SNR, andsearch sequentially for a weight vector among the preset weight vectors in the codebook corresponding to a reception SNR higher than the threshold SNR, and substitute the preset weight vector currently set in the phase shift unit with the searched weight vector when the reception SNR is not higher than the threshold SNR.
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Abstract
A multi-antenna system using adaptive beamforming includes a phase shift unit, a signal combination unit, a frequency down-converter, and an analog-to-digital (A/D) converter, and a beamforming control unit. The phase shift unit includes a plurality of phase shifters which shift the phases of signals received from a plurality of antennas. The signal combination unit combines phase-shifted signals output from the plurality of phase shifters. The frequency down-converter down-converts a signal output from the signal combination unit into a baseband signal. The A/D converter converts the baseband signal into a digital signal. The beamforming control unit searches for a weight vector higher than a preset threshold signal-to-noise ratio (SNR) when a reception SNR of the digital signal output from the A/D converter is lower than the threshold SNR, and changes a currently set weight vector into the searched weight vector to provide to the phase shift unit.
10 Citations
2 Claims
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1. A multi-antenna system, comprising:
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a phase shift unit including a plurality of phase shifters configured to shift phases of signals received from a plurality of antennas, respectively, based on a preset weight vector; a signal combination unit coupled to the phase shifters and configured to receive phase-shifted signals from the phase shifters to combine the phase-shifted signals; a frequency down-converter configured to down-convert a signal output from the signal combination unit into a baseband signal; an analog-to-digital (A/D) converter configured to convert the baseband signal output from the frequency down-converter into a digital signal; and a beamforming control unit coupled to the A/D converter and configured to receive the digital signal to change the preset weight vector currently set in the phase shift unit based on a reception signal-to-noise ratio (SNR) of the digital signal, wherein the beamforming control unit comprises; a codebook comprising a plurality of preset weight vectors which are preset for beamforming of the antennas; an SNR measurement unit coupled to the A/D converter and configured to measure the reception SNR of the digital signal; an SNR comparison unit coupled to the SNR measurement unit and configured to compare the reception SNR from the SNR measurement unit with a preset threshold SNR; and a weight vector control unit coupled to the phase shifter unit and configured to initially set the preset weight vector, maintain the preset weight vector currently set in the phase shift unit when the reception SNR is higher than the threshold SNR, and search sequentially for a weight vector among the preset weight vectors in the codebook corresponding to a reception SNR higher than the threshold SNR, and substitute the preset weight vector currently set in the phase shift unit with the searched weight vector when the reception SNR is not higher than the threshold SNR. - View Dependent Claims (2)
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Specification