Patent ID: 9722821
Date: 2017-08-01
CPC Classifications: H04B,H04J,H04L

Claim:
1. A Frequency Domain Equalization (FDE) method, comprising: obtaining, at a receiver, a receiving signal frequency domain vector according to an offset-modulated transmitting signal from a transmitter, and using the receiving signal frequency domain vector and its conjugate vector as a receiver input signal; calculating an FDE matrix according to the offset-modulated transmitting signal and a receiver FDE output signal, wherein the FDE matrix is used for performing linear FDE for the receiver input signal, and an FDE output signal is obtained by multiplying the receiver input signal by the FDE matrix; and using the FDE matrix to perform FDE for the receiver input signal, wherein calculating the FDE matrix comprises obtaining the FDE matrix used for performing linear FDE for the receiver input signal by determining a minimum mean square error between the offset-modulated transmitting signal and the receiver output signal, wherein, before calculating the FDE matrix, a channel matrix H between the transmitter and the receiver is obtained through channel estimation, and wherein determining the minimum mean square error between the offset-modulated transmitting signal and the receiver output signal comprises: obtaining a mean square error according to the offset-modulated transmitting signal represented by s and the receiver output signal represented by wherein Ω is an FDE matrix, r is a frequency domain vector matrix of a receiving signal, r* is a conjugate matrix of r, and a receiver input signal is and obtaining a Single-Carrier Frequency Domain Equalization (SC-FDE) matrix applicable to Single-carrier Frequency-Division Multiple Access (SC-FDMA) according to a minimum value of the mean square error wherein P is a transmitting power matrix of all transmitting signals on a transmitter, D F is a Fourier transformation matrix of all receiving signals on a receiving side, and N 0 I is a covariance matrix of an additive white Gaussian noise of a channel.