Synchronous method of orthogonal freuency division multiplex in broadband radio insertion system

A broadband wireless, orthogonal frequency division technology, applied in the field of communication, can solve the problems of sub-carrier interference, high symbol synchronization requirements, system performance degradation, etc., to improve frequency offset estimation performance, overcome interdependence, and reduce algorithm complexity Effect

Inactive Publication Date: 2005-03-23
NANJING UNIV OF POSTS & TELECOMM
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Problems solved by technology

However, it has very high requirements for symbol synchronization: OFDM uses orthogonal subcarriers to improve spectrum utilization, and if the timing is not synchronized, the orthogonality of subcarriers will be destroyed; frequency offset causes phase rotation and amplitude fading of useful signals, and more serious It is very important to compensate for the system performance degradation caused by time and frequency asynchronization due to the interference between subcarriers and the system performance will be greatly reduced.
[0003] In recent years, people have conducted extensive research on OFDM synchronization, among which the typical algorithms mainly include the following: Moose gives the frequency domain maximum likelihood estimation method to estimate the frequency offset, which essentially uses the repetition of symbols to estimate the frequency domain , Moose's idea based on repeated correlation provided the basic idea for the subsequent frequency offset estimation algorithm, but because his algorithm requires the frame header to use two repeated symbols and the channel coherence time is at least greater than the duration of two symbols, so This method is not used in many practical systems now; Nogami and Nagashima use a null symbol to synchronize the frame by d...

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  • Synchronous method of orthogonal freuency division multiplex in broadband radio insertion system
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  • Synchronous method of orthogonal freuency division multiplex in broadband radio insertion system

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[0022] The frame header structure of the present invention is as figure 1 As shown, it includes a long training sequence and a short training sequence, where the frame header 1 is a short training sequence including 4 repeated periods, each period has 64 sampling points, and the frame header 2 is a long training sequence including 2 repetition periods , each cycle has 128 sampling points, where CP is the cyclic prefix.

[0023] Specific programs such as figure 2 , mainly divided into the following five steps:

[0024] (1) Rough synchronization

[0025] Coarse synchronization utilizes the periodicity of frame header 1, and this algorithm can be called a delay-related algorithm, such as image 3 shown.

[0026] Two sliding windows C and P are shown in the figure, and the C window is the correlation function of the received signal and its delayed signal, so it is called delay correlation, and the delay coefficient Z-D is equal to the period length 64 of the short training sy...

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Abstract

A synchronization method in OFDM broadband wireless access system includes such steps as utilizing NO.1 frame head as a delay related decision to realize rough synchronization, using the conjugate symmetry of No.2 frame head to realize accurate timing, the frame heads roughly and accurately estimate the decimal frequency deviation separately, the frequency field sequences of the two heads are used to estimate the integer frequency bias and finally synchronous tracing.

Description

technical field [0001] The invention relates to a synchronization realization scheme of Orthogonal Frequency Division Multiplexing (OFDM) especially for 802.16a broadband wireless access network, and belongs to the technical field of communication. Background technique [0002] The OFDM system has attracted more and more attention because of its advantages of strong anti-interference ability and high frequency utilization rate. The wireless broadband access system 806.16a adopts OFDM technology as one of the transmission methods of the system. However, it has very high requirements for symbol synchronization: OFDM uses orthogonal subcarriers to improve spectrum utilization, and if the timing is not synchronized, the orthogonality of subcarriers will be destroyed; frequency offset causes phase rotation and amplitude fading of useful signals, and more serious It is very important to compensate for the system performance degradation caused by time and fr...

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Application Information

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IPC IPC(8): H04L7/04H04L27/26
Inventor 吴蒙朱琦邵世祥张艳酆广增赵夙
Owner NANJING UNIV OF POSTS & TELECOMM
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