Long-term evolution system self-adaptation frequency deviation precorrection method under environment of high-speed rail

A long-term evolution system, adaptive technology, applied in the field of long-term evolution system adaptive frequency offset pre-correction in the high-speed rail environment

Inactive Publication Date: 2013-04-24
SOUTHEAST UNIV
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Problems solved by technology

[0007] Technical problem: The LTE system adaptive frequency offset pre-correction method in the high-speed rail environment proposed by the present invention is mainly to solve the problem of positive and negative Doppler frequency offsets at the receiving end when multiple RRUs are jointly covered, so as to improve the LTE frequency in the high-speed rail environment. Communication System Performance

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  • Long-term evolution system self-adaptation frequency deviation precorrection method under environment of high-speed rail
  • Long-term evolution system self-adaptation frequency deviation precorrection method under environment of high-speed rail
  • Long-term evolution system self-adaptation frequency deviation precorrection method under environment of high-speed rail

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[0122] The present invention will be further described below in conjunction with the accompanying drawings.

[0123] figure 1 It is the processing flow of the uplink and downlink at the base station side of the present invention. figure 2 It is the assumed simulation scene parameter. In addition, the system assumes a TD-LTE system with a carrier frequency of 2.4GHz. In the high-speed railway scene, there will be a large Doppler frequency deviation. The Doppler change trend of a single RRU is as follows: image 3 .

[0124] This embodiment is an adaptive frequency offset pre-correction method for an LTE system in a high-speed rail environment, and the complete steps of the pre-correction are as follows:

[0125] Step 1: Use the method of baseband processing unit BBU+remote radio frequency unit RRU to deploy stations along the railway line, and the uplink radio frequency signal received by each RRU becomes a baseband signal and transmits it to the BBU;

[0126] Step 2: The B...

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Abstract

The invention discloses a long-term evolution system self-adaptation frequency deviation precorrection method under the environment of a high-speed rail. The long-term evolution system self-adaptation frequency deviation precorrection method under the environment of the high-speed rail is characterized by including the following steps: (1) distributing stations along railway by adopting the mode of a baseband processing unit (BBU) and a remote radio unit (RRU), transforming an uploading radio-frequency signal received by each RRU into a baseband signal and sending the baseband signal to the BBU, (2) conducting least squares (LS) channel estimation by the BBU according to the baseband signals sent by different RRUs based on an uploading reference signal, (3) calculating uploading frequency deviation of different user data correspondingly received by each RRU according to an LS estimated value on the reference signal. The long-term evolution system self-adaptation frequency deviation precorrection method under the environment of the high-speed rail is capable of increasing coverage area of single cell along the railway of long term evolution and LET-A system, reducing switchover and improving success rate of user access.

Description

technical field [0001] The present invention relates to a Doppler frequency offset pre-correction method applied in a high-speed rail environment, in particular to a 3GPP LTE (3GPP Long Term Evolution, long-term evolution of the third generation partnership project) application in a high-speed rail communication scenario and LTE-A system (advanced long-term evolution system, hereinafter collectively referred to as LTE system) adaptive frequency offset pre-correction method. Background technique [0002] The Long Term Evolution (LTE) project of the Universal Mobile Telecommunications System (UMTS) is the largest new technology research and development project initiated by 3GPP in recent years. The uplink and downlink of 3GPP LTE adopts single-carrier orthogonal frequency division multiple access SC-OFDMA and orthogonal frequency division multiple access OFDMA respectively. This orthogonal frequency division multiplexing method can greatly improve spectrum utilization, is sui...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04L25/02H04L27/26
Inventor 赵春明谢鑫黄鹤巩晓群
Owner SOUTHEAST UNIV
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