RADIO COMMUNICATION CONTROL METHOD AND RADIO COMMUNICATION SYSTEM
First Claim
1. A radio communication control method in a radio communication system, comprisinga transmitter device provided witha precoder configured to carry out precoding by using a precoding matrix,a transmit beamformer configured to carry out transmit beamforming, in which variation in phase and amplitude corresponding to a transmit beamforming (BF) weight matrix is imparted to signals after precoding has been executed, anda number NT of transmission antennas for transmitting the signals subjected to the transmit beamforming, anda receiver device provided witha number NR of reception antennas for receiving signals that have been transmitted from the transmitter device and propagated through a space,a receive beamformer configured to carry out receive beamforming, in which variation in phase and amplitude corresponding to a receive BF weight matrix is imparted to the signals received by the plurality of reception antennas, anda postcoder configured to carry out, by using a postcoding matrix, postcoding on the signals that have been subjected to the analog receive beamforming,the method comprising:
- generating a receive BF output vector having a number NR of receive BF output components, by a number LR of receive beamforming circuits provided in the receive beamformer carrying out receive beamforming (NR/LR) times with respect to a received signal vector received by the number NR of the reception antennas;
calculating reception power for each of the NR receive BF output components; and
selecting the LR receive BF output components in decreasing order of reception power, and determining a suitable receive BF weight matrix including LR reception orthogonal BF weight vectors corresponding to the selected receive BF output components.
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Accused Products
Abstract
A number LR of receive beamforming circuits provided in a receive beamformer execute receive beamforming (NR/LR) times with respect to a received signal vector received by NR reception antennas AR, thereby generating a receive beamforming (BF) output vector having NR receive BF output components. A calculation processor calculates a reception power for each of the NR receive BF output components, selects LR receive BF output components in decreasing order of reception power, and determines a suitable receive BF weight matrix including LR reception orthogonal BF weight vectors corresponding to the selected receive BF output components.
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Citations
12 Claims
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1. A radio communication control method in a radio communication system, comprising
a transmitter device provided with a precoder configured to carry out precoding by using a precoding matrix, a transmit beamformer configured to carry out transmit beamforming, in which variation in phase and amplitude corresponding to a transmit beamforming (BF) weight matrix is imparted to signals after precoding has been executed, and a number NT of transmission antennas for transmitting the signals subjected to the transmit beamforming, and a receiver device provided with a number NR of reception antennas for receiving signals that have been transmitted from the transmitter device and propagated through a space, a receive beamformer configured to carry out receive beamforming, in which variation in phase and amplitude corresponding to a receive BF weight matrix is imparted to the signals received by the plurality of reception antennas, and a postcoder configured to carry out, by using a postcoding matrix, postcoding on the signals that have been subjected to the analog receive beamforming, the method comprising: -
generating a receive BF output vector having a number NR of receive BF output components, by a number LR of receive beamforming circuits provided in the receive beamformer carrying out receive beamforming (NR/LR) times with respect to a received signal vector received by the number NR of the reception antennas; calculating reception power for each of the NR receive BF output components; and selecting the LR receive BF output components in decreasing order of reception power, and determining a suitable receive BF weight matrix including LR reception orthogonal BF weight vectors corresponding to the selected receive BF output components. - View Dependent Claims (4, 5)
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2. A radio communication control method in a radio communication system, comprising
a transmitter device provided with a precoder configured to carry out precoding by using a precoding matrix, a transmit beamformer configured to carry out transmit beamforming, in which variation in phase and amplitude corresponding to a transmit beamforming (BF) weight matrix is imparted to signals after precoding has been executed, and a number NT of transmission antennas for transmitting the signals that have been subjected to the transmit beamforming, and a receiver device provided with a number NR of reception antennas for receiving signals that have been transmitted from the transmitter device and propagated through a space, a receive beamformer configured to carry out receive beamforming, in which variation in phase and amplitude corresponding to a receive BF weight matrix is imparted to the signals received by the plurality of reception antennas, and a postcoder configured to carry out, by using a postcoding matrix, postcoding on the signals that have been subjected to the analog receive beamforming, the method comprising: -
generating a receive BF output vector having a number NR of receive BF output components, by a number LR of receive beamforming circuits provided in the receive beamformer carrying out receive beamforming (NR/LR) times with respect to a received signal vector received by the number NR of the reception antennas; acquiring the received signal vector by multiplying each of a number NR of separation operators corresponding to the NR reception antennas with respect to the receive BF output vector; estimating a channel matrix using the received signal vector; calculating reception power for each of a plurality of receive BF weight vector candidates using the estimated channel matrix; and selecting the LR receive BF weight vector candidates in decreasing order of reception power, and determining a suitable receive BF weight matrix including the selected LR receive BF weight vector candidates. - View Dependent Claims (9, 10)
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3. A radio communication control method in a radio communication system, comprising
a transmitter device provided with a precoder configured to carry out precoding by using a precoding matrix, a transmit beamformer configured to carry out transmit beamforming, in which variation in phase and amplitude corresponding to a transmit beamforming (BF) weight matrix is imparted to signals after precoding has been executed, and a number NT of transmission antennas for transmitting the signals that have been subjected to the transmit beamforming, and a receiver device provided with a number NR of reception antennas for receiving signals that have been transmitted from the transmitter device and propagated through a space, a receive beamformer configured to carry out receive beamforming, in which variation in phase and amplitude corresponding to a receive BF weight matrix is imparted to the signals received by the plurality of reception antennas, and a postcoder configured to carry out, by using a postcoding matrix, postcoding on the signals that have been subjected to the analog receive beamforming, the method comprising: -
acquiring a received signal vector, by each of a number LR of receive beamforming circuits provided in the receive beamformer carrying out a bypass receiving operation that selects and acquires one of the received signal vector elements (NR/LR) times with respect to the received signal vector received by the number NR of the reception antennas; estimating a channel matrix using the received signal vector; calculating reception power for each of a plurality of receive BF weight vector candidates using the estimated channel matrix; and selecting the LR receive BF weight vector candidates in decreasing order of reception power, and determining a suitable receive BF weight matrix including the selected LR receive BF weight vector candidates. - View Dependent Claims (11, 12)
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6. A radio communication system, comprising
a transmitter device provided with a precoder configured to carry out precoding by using a precoding matrix, a transmit beamformer configured to carry out transmit beamforming, in which variation in phase and amplitude corresponding to a transmit beamforming (BF) weight matrix is imparted to signals after precoding has been executed, and a number NT of transmission antennas for transmitting the signals that have been subjected to the transmit beamforming, and a receiver device provided with a number NR of reception antennas for receiving signals that have been transmitted from the transmitter device and propagated through a space, a receive beamformer configured to carry out receive beamforming, in which variation in phase and amplitude corresponding to a receive BF weight matrix is imparted to the signals received by the plurality of reception antennas, and a postcoder configured to carry out, by using a postcoding matrix, postcoding on the signals that have been subjected to the analog receive beamforming, wherein, the receive beamformer generates a receive BF output vector having a number NR of receive BF output components, by a number LR of receive beamforming circuits provided in the receive beamformer carrying out receive beamforming (NR/LR) times with respect to a received signal vector received by the number NR of the reception antennas, and the receiver device is further provided with a calculation processor configured to calculate reception power for each of the NR receive BF output components, and select the LR receive BF output components in decreasing order of reception power, and determine a suitable receive BF weight matrix including LR reception orthogonal BF weight vectors corresponding to the selected receive BF output components.
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7. A radio communication system, comprising
a transmitter device provided with a precoder configured to carry out precoding by using a precoding matrix, a transmit beamformer configured to carry out transmit beamforming, in which variation in phase and amplitude corresponding to a transmit BF weight matrix is imparted to signals after precoding has been executed, and a number NT of transmission antennas for transmitting the signals that have been subjected to the transmit beamforming, and a receiver device provided with a number NR of reception antennas for receiving signals that have been transmitted from the transmitter device and propagated through a space, a receive beamformer configured to carry out receive beamforming, in which variation in phase and amplitude corresponding to a receive BF weight matrix is imparted to the signals received by the plurality of reception antennas, and a postcoder configured to carry out, by using a postcoding matrix, postcoding on the signals that have been subjected to the analog receive beamforming, wherein, the receive beamformer generates a receive BF output vector having a number NR of receive BF output components, by a number LR of receive beamforming circuits provided in the receive beamformer carrying out receive beamforming (NR/LR) times with respect to a received signal vector received by the number NR of the reception antennas, the receiver device is further provided with a calculation processor configured to acquire the received signal vector by multiplying each of a number NR of separation operators corresponding to the NR reception antennas with respect to the receive BF output vector, estimate a channel matrix using the received signal vector, calculate reception power for each of a plurality of receive BF weight vector candidates using the estimated channel matrix, and select the LR receive BF weight vector candidates in decreasing order of reception power, and determine a suitable receive BF weight matrix including the selected LR receive BF weight vector candidates.
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8. A radio communication system, comprising
a transmitter device provided with a precoder configured to carry out precoding by using a precoding matrix, a transmit beamformer configured to carry out transmit beamforming, in which variation in phase and amplitude corresponding to a transmit BF weight matrix is imparted to signals after precoding has been executed, and a number NT of transmission antennas for transmitting the signals that have been subjected to the transmit beamforming, and a receiver device provided with a number NR of reception antennas for receiving signals that have been transmitted from the transmitter device and propagated through a space, a receive beamformer configured to carry out receive beamforming, in which variation in phase and amplitude corresponding to a receive BF weight matrix is imparted to the signals received by the plurality of reception antennas, and a postcoder configured to carry out, by using a postcoding matrix, postcoding on the signals that have been subjected to the analog receive beamforming, wherein, each of a number LR of receive beamforming circuits provided in the receive beamformer carries out a bypass receiving operation that selects and acquires one of the received signal vector elements (NR/LR) times with respect to a received signal vector received by the number NR of the reception antennas, to acquire the received signal vector, the receiver device is further provided with a calculation processor configured to estimate a channel matrix using the received signal vector, calculate reception power for each of a plurality of receive BF weight vector candidates using the estimated channel matrix, and select the LR receive BF weight vector candidates in decreasing order of reception power, and determine a suitable receive BF weight matrix including the selected LR receive BF weight vector candidates.
Specification