文件名称:Matlab
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很好的OFDM的基于MATLAB的仿真程序包,且包含了最终结果图.-montecarlo
type montecarlo in the command window and wait for a long time..
_simulation of the complete OFDM system.
_use of a very large file in order to get probabilities.
_loop over different value of the noise.
_compute the SNR for each value of the noise.
_provide the SNR/BER plot.
if you are in a rush : simulation_system !!
go into the right folder and type simulation_system in the command window.
_then type the value of the noise power (range = [-20,10])
_the function provides the channel estimation, the bit allocation,
and a plot illustrating the errors.
_this is a fast function (less pilot, no synchronization, small file).
type montecarlo in the command window and wait for a long time..
_simulation of the complete OFDM system.
_use of a very large file in order to get probabilities.
_loop over different value of the noise.
_compute the SNR for each value of the noise.
_provide the SNR/BER plot.
if you are in a rush : simulation_system !!
go into the right folder and type simulation_system in the command window.
_then type the value of the noise power (range = [-20,10])
_the function provides the channel estimation, the bit allocation,
and a plot illustrating the errors.
_this is a fast function (less pilot, no synchronization, small file).
相关搜索: montecarlo
ofdm
SNR
pilot
synchronization
matlab
BER-based
Power
Allocation
channel
estimation
errors
synchronization
OFDM
ber
fast
channel
estimation
ofdm
SNR
OFDM
ber
ofdm
Pilot-Aided
ofdm
ofdm
SNR
pilot
synchronization
matlab
BER-based
Power
Allocation
channel
estimation
errors
synchronization
OFDM
ber
fast
channel
estimation
ofdm
SNR
OFDM
ber
ofdm
Pilot-Aided
ofdm
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下载文件列表
Matlab
......\montecarlo
......\..........\16qam.mat
......\..........\256qam.mat
......\..........\64qam.mat
......\..........\addnoise.m
......\..........\add_prefix.m
......\..........\BER.fig
......\..........\BER.mat
......\..........\BER2.fig
......\..........\BER_sigma.fig
......\..........\BER_SNR.fig
......\..........\best_one.fig
......\..........\bi2de.m
......\..........\bn_max_noise.fig
......\..........\bn_min_noise.fig
......\..........\bpsk.mat
......\..........\channel.fig
......\..........\channle_max_noise.fig
......\..........\channle_min_noise.fig
......\..........\condecoder.m
......\..........\conencoder.m
......\..........\de2bi.m
......\..........\decoder.m
......\..........\deinterleaving.m
......\..........\demodulation.m
......\..........\generate.m
......\..........\h.mat
......\..........\interleaving.m
......\..........\modulation.m
......\..........\montecarlo.asv
......\..........\montecarlo.m
......\..........\new figure
......\..........\..........\Noise_BER.fig
......\..........\..........\Noise_bn.fig
......\..........\..........\Noise_bn_good.fig
......\..........\..........\Noise_H.fig
......\..........\..........\Noise_H_good.fig
......\..........\..........\SNR_BER.fig
......\..........\..........\SNR_bn.fig
......\..........\..........\SNR_bn_good.fig
......\..........\..........\SNR_H.fig
......\..........\..........\SNR_H_good.fig
......\..........\noise.mat
......\..........\Noise_H_good.eps
......\..........\ofdm_fading.fig
......\..........\ofdm_fading2.fig
......\..........\phase_estimation.m
......\..........\qpsk.mat
......\..........\receiver.asv
......\..........\simulation1.asv
......\..........\simulation2.asv
......\..........\SNR.mat
......\..........\symfft.m
......\..........\symifft.m
......\..........\sync.asv
......\..........\sync.m
......\..........\synchro.asv
......\..........\synchro.m
......\..........\test.asv
......\..........\test.m
......\..........\transmitter.asv
......\..........\transmitter.m
......\..........\upfir.m
......\..........\upsample.m
......\..........\waterfill.asv
......\..........\waterfill.m
......\read me.txt
......\montecarlo
......\..........\16qam.mat
......\..........\256qam.mat
......\..........\64qam.mat
......\..........\addnoise.m
......\..........\add_prefix.m
......\..........\BER.fig
......\..........\BER.mat
......\..........\BER2.fig
......\..........\BER_sigma.fig
......\..........\BER_SNR.fig
......\..........\best_one.fig
......\..........\bi2de.m
......\..........\bn_max_noise.fig
......\..........\bn_min_noise.fig
......\..........\bpsk.mat
......\..........\channel.fig
......\..........\channle_max_noise.fig
......\..........\channle_min_noise.fig
......\..........\condecoder.m
......\..........\conencoder.m
......\..........\de2bi.m
......\..........\decoder.m
......\..........\deinterleaving.m
......\..........\demodulation.m
......\..........\generate.m
......\..........\h.mat
......\..........\interleaving.m
......\..........\modulation.m
......\..........\montecarlo.asv
......\..........\montecarlo.m
......\..........\new figure
......\..........\..........\Noise_BER.fig
......\..........\..........\Noise_bn.fig
......\..........\..........\Noise_bn_good.fig
......\..........\..........\Noise_H.fig
......\..........\..........\Noise_H_good.fig
......\..........\..........\SNR_BER.fig
......\..........\..........\SNR_bn.fig
......\..........\..........\SNR_bn_good.fig
......\..........\..........\SNR_H.fig
......\..........\..........\SNR_H_good.fig
......\..........\noise.mat
......\..........\Noise_H_good.eps
......\..........\ofdm_fading.fig
......\..........\ofdm_fading2.fig
......\..........\phase_estimation.m
......\..........\qpsk.mat
......\..........\receiver.asv
......\..........\simulation1.asv
......\..........\simulation2.asv
......\..........\SNR.mat
......\..........\symfft.m
......\..........\symifft.m
......\..........\sync.asv
......\..........\sync.m
......\..........\synchro.asv
......\..........\synchro.m
......\..........\test.asv
......\..........\test.m
......\..........\transmitter.asv
......\..........\transmitter.m
......\..........\upfir.m
......\..........\upsample.m
......\..........\waterfill.asv
......\..........\waterfill.m
......\read me.txt