A Beamforming Method for Multi-user Paired Virtual MIMO System
A beamforming method and beamforming technology, applied in diversity/multi-antenna systems, transmission systems, space transmit diversity, etc., can solve the problem of low transmission efficiency
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specific Embodiment 1
[0118] Specific embodiment one: as figure 1 As shown, the scheduling algorithm is used to schedule 10 users in the entire user frequency band, and then the pairing algorithm is used to pair the 10 scheduling users to form a 2-user virtual multiple input and output system (the number of scheduling users is 10, and the 10 scheduling users are respectively There is a paired user, so a 2-user virtual multiple input and output system is formed), at this time M=10, N m =1.
[0119] Step 1: Determine the uplink beamforming vector w of the 10 scheduled users in the virtual MIMO system (1,1) 、w (2,1) ...,w (10,1) , the w (1,1) 、w (2,1) ...,w (10,1) are the matrices The eigenvector corresponding to the largest eigenvalue, and ||w (1,1) || 2 = 1, ||w (2,1) || 2 =1,...,||w (10,1) || 2 = 1, where are the channel matrices between the transmit antennas of the scheduled users 1, 2, ..., 10 and the base station receive antennas when transmitting data uplink in the virtual mul...
specific Embodiment 2
[0125] Specific embodiment two: use the scheduling algorithm to schedule 5 users on the entire user frequency band, and then use the determinant pairing algorithm to pair the 5 scheduling users to form a 3-user virtual multiple input and output system. At this time, M=5, N m =2(m=1,2,...,5).
[0126] Step 1: Determine the uplink beamforming vector w of the 5 scheduled users in the virtual MIMO system (1,1) 、w (2,1) ...,w (5,1), the w (1,1) 、w (2,1) ...,w (5,1) are the matrices The eigenvector corresponding to the largest eigenvalue, and ||w (1,1) || 2 =1,||w (2,1) || 2 =1,...,||w (5,1) || 2 = 1, where are the channel matrices between the transmit antennas of the scheduled users 1, 2, ..., 5 and the base station receive antennas when transmitting data uplink in the virtual multiple-input-output system. When calculating the beamforming matrices of the five scheduled users, the Interference with other users to this user.
[0127] Step 2: The base station calcula...
specific Embodiment 3
[0138] Such as figure 2 As shown, the pairing process is as follows when the number of paired users is n=3:
[0139] Step 0: Set k 1 (x) represents user x itself, k 2 (x) represents the first paired user of user x, k 3 (x) represents the second paired user of user x, ..., k n+1 (x) represents the nth paired user of user x, i∈Ω, Ω represents the set of users who have not allocated resource blocks when the VMIMO system transmits data uplink, Λ 1 is the set of users who have allocated resource blocks when the VMIMO system transmits data uplink, Ω and Λ 1 The collection of is the entire user collection.
[0140] Step 1: Calculate the channel capacity value D of user x according to formula (45) 1 (x)
[0141]
[0142] Among them, M x represents the number of resource blocks occupied by user x, Represents the channel matrix of user x on the mth resource block; P x Represents the received power when the base station receives the signal transmitted by the xth user's tra...
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