1) training sequence code
训练序列码
2) Code Space of Training Sequences
训练序列码空间
3) Training sequence
训练序列
1.
FPGA implementation of frequency synchronization arithmetic in time domain based on training sequence;
基于训练序列的载波频率同步算法的FPGA实现
2.
An improved OFDM symbol synchronization algorithm based on training sequence;
一种改进的基于训练序列的OFDM符号同步算法
3.
Algorithm of channel estimation using special training sequence for MIMO-OFDM systems;
基于特殊训练序列的信道估计算法的研究
4) training sequences
训练序列
1.
Algorithm analysis of timing synchronization for OFDM system based on training sequences;
基于训练序列的OFDM系统定时同步算法分析
2.
Large estimation range and precise estimation can be acquired by the new method by twice frequency offset estimation;moreover,date transmission efficiency will be improved without any demand for training sequences.
该算法通过两次频率偏移估计,可以同时获得大的估计范围和高的估计精度,而且对训练序列没有其他限制,可以提高系统数据传输效率。
3.
In this paper,we analyzed the channel estimation base on block-type training sequences for the typical UWB indoor channel model.
在典型的UWB室内信道模型下,分析基于块状训练序列的信道估计算法。
5) short training sequences
短训练序列
1.
11a system,the coarse frame synchronization can be realized with auto-correlation posed by the periodicity of short training sequences,and the fine frame synchronization can be implemented using cross-correlation between local short training sequences and received signals.
11 a前导训练序列的周期性而产生的自相关来进行帧粗同步,利用本地短训练序列与接收信号的互相关进行帧细同步。
6) midamble training sequence
midamble训练序列
补充资料:序列空间
序列空间
sequential space
序列空间〔哟叩.如1即ace;“畔职“幼~enpoc印明-c,01 一拓扑空间(top0fogi(元sPace)X,使得若A Cx且A护工AI(即集合A是非闭的),则存在A的点序列x*(k二1,2,…)收敛于【A〕\A的点·若x〔【Al C=X总蕴含:存在A的点的序列戈*收敛于x,则x称为Fr良het一y孙I以班空间(Fr白比t一U郎。恤sPaCe).M .H .B璐加exoc盆浦撰【补注】序列空间构成所有拓扑空间的范畴的余自反子范畴(见自反子范畴(化趾成ive su肠把即即);余自反射是把具有拓扑结构的任意空间用下列方式再拓扑化而得到的:一个子集是闭集的充要条件是,它在序列的极限(按通常的拓扑)下是闭的.满足第一可数公理(腼t~mofcoUntab习ity)的空间总是序列空间(实际上,是F苗出et.yPblc佣空间),而序列空间构成包含所有第一可数空间的最小余自反子范畴.因此,以往对第一可数空间证明的许多拓扑结论,都可以很容易地推广到序列空间.
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参考词条