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Carrier & Symbol Timing Recovery
- Carrier & Symbol Timing Recovery-Carrier Symbol Timing Recovery
mlmethod
- 运用matlab来进行最大似然方法实现符号定时同步和载波同步仿真。-use Matlab to the maximum likelihood method Symbol Timing and Carrier Synchronization simulation.
lab7_Symbol_Timing_Synchronization
- The Simulation Symbol Timing Synchronization using Matlab-The Simulation Symbol Timing Synchroniza tion using Matlab
ofdmml
- 基于循环前缀的符号定时同步和载波同步的ofdm仿真的matlab程序-Symbol Timing and Carrier Synchronization of ofdm Matlab simulation procedures.
ML_cp
- 值得深刻阅读的基于CP的OFDM同步程序 这是一个非常好的用于OFDM的基于CP的 最大似然符号定时同步和载波同步的MATLAB仿真程序,经本人深入阅读吸收经典文献,反复编程调试而提炼而成,代码精炼有序,绝对没有错误,由此程序仿真得到的同步曲线与经典文献完全一致。同仁们阅读此程序一定受益匪浅! 这里不吝成果,特上载与诸位网友共享。也欢迎同仁们提供更多的优秀程序。 由于文献要求采用N=1024个子载波的OFDM,运行此程序需2分钟-3分钟的时间。 -Worthy of profound r
qpsksystem_SJSU_mdl
- QPSK modulation system with recover loops-This is a model of a QPSK modulation system for transmission over a bandpass channel with fc = 100 Hz and B = 30 Hz and AWGN at the receiver. SRRC fi lters with excess bandwidth α = 0.18 are employed. Th
2
- new symbol timing synchronization method for OFDM based WLANs
10[1].1.1.66.2227
- In this paper, we present a novel data-based method for simultaneous Maximum Likelihood (ML) symbol and carrier-frequency o畇et estimation in Orthogonal frequencydivision multiplexing (OFDM) systems. Statistical properties introduced by the cyclic
PSK_carrier_timing_est
- PSK信号载波相位符号定时联合估计程序-PSK symbol timing signal joint estimation of carrier phase process
OFDM_rece_matlab
- 一个OFDM符号128个有效符号,插入128个虚拟子载波 符号率(即有效数据率)fsymbol,而发送速率(需要包括虚拟子载波)2fsymbol 输入的数据需要2倍的发送数据率,以便进行内插,实现位定时跟踪,即4倍fsymbol采样率的调制信号 OFDM symbol Nfft=128 points 一个OFDM符号数据点 Nfft*2 = 256 , Guard Interval点 =Ng*2=64 - a OFDM symbol 128 effective s
mlme
- 最大似然方法联合实现符号定时同步和载波同步仿真 -This is a very good CP for OFDM-based maximum likelihood symbol timing synchronization and carrier synchronization of the MATLAB simulation program,
psk31_9b_12a
- PSK31 Model with Symbol Timing and Carrier Recovery-This model implements a communication standard known as PSK31. The transmit portion of the model can either synthesize the PSK31 signal, or use real world signals that were captured as Wave files.
v06_03_dem_2up_arrange
- 一个OFDM符号128个有效符号,插入128个虚拟子载波 符号率(即有效数据率)fsymbol,而发送速率(需要包括虚拟子载波)2fsymbol 输入的数据需要2倍的发送数据率,以便进行内插,实现位定时跟踪,即4倍fsymbol采样率的调制信号 OFDM symbol Nfft=128 points 一个OFDM符号数据点 Nfft*2 = 256 , Guard Interval点 =Ng*2=64 -128 of an OFDM symbol of a val
Continuous-Synchronization-of-OFDM
- 该模型实现一个不依赖于任何特定的行业标准通用的连续同步OFDMOFDM模型TX和RX。这个模型的目的是开发和探索出一条连续的(而不是“突发”)的载波和定时同步跟踪计划。然后使用该技术可以扩展和修改特定通信标准。-This model implements a generic OFDM TX and RX, which is not tied to any particular industry standard. The objective of this model is to develop
carrier-recoveryaSymbol-timing
- 一个载波恢复与符号定时的仿真。 载波恢复使用平方环,符号定时基于早迟门,发送信号采用BPSK调制方式,统计计算的误码率。-A carrier recovery and symbol timing simulation. Carrier recovery loop using the square, the symbol timing based on early-late gate, sending a signal using BPSK modulation, bit error rate
OFDM_rece_matlab
- 接收端采用的算法和程序流程与发送端发送的OFDM符号的帧结构有关系。具体的帧结构,以及定时估计,频偏估计,剩余误差跟踪的算法可参考算法说明文档。这里对程序的流程进行说明。 首先根据短训练字的特性进行相关运算,进行信号到达检测,当检测到相关值大于门限一定次数后,认为有信号到达。然后根据长训练字的特性,进行相关运算,进行OFDM符号FFT窗口起始位置的估计。估计出FFT窗口的位置后,先在时域进行小频偏的估计,将两个长训练字进行小频偏补偿后,进行FFT运算,根据FFT运算的结果进行整数倍频偏的估计
REN_pilot
- Ren 提出的OFDM定时同步算法仿真,在多径信道下的结果-OFDM symbol timing synchronization
STO-estimation
- OFDM符号定时同步算法,几种经典算法的仿真和比较-OFDM symbol timing synchronization algorithm, simulation and comparison of several classical algorithm
CAZAC
- matalb实现ES-CAZAC符号同步算法,具有较好的定时同步性能-ES-CAZAC symbol synchronization algorithm to achieve MATALB, with better timing synchronization performance
syncronization
- Symbol synchronization