文件名称:PAPR-Reduction2
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This M Code simulate the effects of clipping and filtering on PAPR reduction in OFDM-based wireless standard.Also the performance of BER versus SNR of original OFDM signals with PAPR reduction based on clipping and filtering schemes over AWGN channel is evaluated.
The simplest and most widely used technique of PAPR reduction is to basically clip the part of signals that are outside the allowed region.Clipping methode introduces both in band distortion and out of band radiation into OFDM signals which degrades the performance including the BER and spectral efficiency.Filtering can reduce out of band radiation after clipping although it can not reduce in-band radiation distortion.However, clipping may cause some peak regrowth so that the signal after clipping and filtering will exceed the clipping level at some point.To reduce peak regrowth a repeated filtering and clipping operation can be used to obtain a desirable PAPR at a cost of computational complexity increase.
-This M Code simulate the effects of clipping and filtering on PAPR PAPR reduction in OFDM-based wireless standard.Also the performance of BER versus SNR of original OFDM signals with PAPR reduction based on clipping and filtering schemes over AWGN channel is evaluated.
The simplest and most widely used technique of PAPR reduction is to basically clip the part of signals that are outside the allowed region.Clipping methode introduces both in band distortion and out of band radiation into OFDM signals which degrades the performance including the BER and spectral efficiency.Filtering can reduce out of band radiation after clipping although it can not reduce in-band radiation distortion.However, clipping may cause some peak regrowth so that the signal after clipping and filtering will exceed the clipping level at some point.To reduce peak regrowth a repeated filtering and clipping operation can be used to obtain a desirable PAPR at a cost of computational complexity increase.
The simplest and most widely used technique of PAPR reduction is to basically clip the part of signals that are outside the allowed region.Clipping methode introduces both in band distortion and out of band radiation into OFDM signals which degrades the performance including the BER and spectral efficiency.Filtering can reduce out of band radiation after clipping although it can not reduce in-band radiation distortion.However, clipping may cause some peak regrowth so that the signal after clipping and filtering will exceed the clipping level at some point.To reduce peak regrowth a repeated filtering and clipping operation can be used to obtain a desirable PAPR at a cost of computational complexity increase.
-This M Code simulate the effects of clipping and filtering on PAPR PAPR reduction in OFDM-based wireless standard.Also the performance of BER versus SNR of original OFDM signals with PAPR reduction based on clipping and filtering schemes over AWGN channel is evaluated.
The simplest and most widely used technique of PAPR reduction is to basically clip the part of signals that are outside the allowed region.Clipping methode introduces both in band distortion and out of band radiation into OFDM signals which degrades the performance including the BER and spectral efficiency.Filtering can reduce out of band radiation after clipping although it can not reduce in-band radiation distortion.However, clipping may cause some peak regrowth so that the signal after clipping and filtering will exceed the clipping level at some point.To reduce peak regrowth a repeated filtering and clipping operation can be used to obtain a desirable PAPR at a cost of computational complexity increase.
相关搜索: PAPR
PAPR
BER
ofdm
snr
Effects
of
Clipping
and
Filtering
on
the
Performan
Reduce
ber
in
AWGN
channel
papr
clip
matlab
code
for
papr
reduction
in
ofdm
CLIPPING
BER
PAPR
This
M
Code
simulate
the
effects
of
clipping
and
f
clipping
papr
PAPR
BER
ofdm
snr
Effects
of
Clipping
and
Filtering
on
the
Performan
Reduce
ber
in
AWGN
channel
papr
clip
matlab
code
for
papr
reduction
in
ofdm
CLIPPING
BER
PAPR
This
M
Code
simulate
the
effects
of
clipping
and
f
clipping
papr
(系统自动生成,下载前可以参看下载内容)
下载文件列表
version 2\bertoolexample.m
.........\BER_calculation.asv
.........\clipping.asv
.........\clipping.m
.........\dvbt_platform.mdl
.........\experimental.fig
.........\exper_OFDM.asv
.........\Figure\BER_clipping_OS_1.fig
.........\......\BER_clipping_OS_2.fig
.........\......\BER_clipping_OS_4.fig
.........\......\BER_clipping_SNR.fig
.........\......\BER_filtering_17.fig
.........\......\BER_filtering_SNR.fig
.........\......\fixed_point_analysis_clipping.fig
.........\......\fixed_point_analysis_clipping2.fig
.........\......\fixed_point_analysis_clipping_01.fig
.........\......\fixed_point_analysis_clipping_1.fig
.........\......\fixed_point_analysis_clipping_10.fig
.........\......\fixed_point_analysis_clipping_50.fig
.........\......\Performance_2K_1_004.fig
.........\......\PSD_17_1.fig
.........\......\PSD_17_2.fig
.........\......\PSD_17_2_3.4_3.9_005_1.fig
.........\......\PSD_17_2_3.4_7_005_1.fig
.........\......\PSD_17_4.fig
.........\......\PSD_17_4_3.4_3.9_005_1.fig
.........\......\PSD_17_4_3.4_7_005_1.fig
.........\Float_Initialization.asv
.........\Float_Initialization.m
.........\Float_Main_PAPR_reduction.asv
.........\Float_Main_PAPR_reduction.m
.........\Float_OFDM_clipping.asv
.........\Float_OFDM_clipping.m
.........\Float_PAPR_measurment.asv
.........\Float_PAPR_measurment.m
.........\Float_tx_OFDM_modul.asv
.........\Float_tx_OFDM_modul.m
.........\initialization.asv
.........\maindvbt3_tablegen.m
.........\maindvbt4_tablegen.asv
.........\maindvbt4_tablegen.m
.........\maindvbt5_tablegen.m
.........\main_dvbt.mdl
.........\main_dvbt_tablegen.m
.........\mdl_Initialization.asv
.........\mdl_Initialization.m
.........\mdl_Main_PAPR_reduction.asv
.........\mdl_Main_PAPR_reduction.m
.........\mdl_OFDM_clipping.asv
.........\mdl_OFDM_clipping.m
.........\mdl_PAPR_fildesgn.m
.........\mdl_PAPR_measurment.asv
.........\mdl_PAPR_measurment.m
.........\msfcn_ds.m
.........\msfuntmpl.m
.........\OFDM_clipping.asv
.........\OFDM_demmodul_rx.asv
.........\OFDM_demmodul_rx.m
.........\Original_BER_calculation.asv
.........\Original_BER_calculation.m
.........\PAPR_measurment.asv
.........\papr_reduction.asv
.........\Pilot_Clipped.asv
.........\Pilot_Clipped.m
.........\rx_dvbt_platform.mdl
.........\saturation_lib.mdl
.........\Synchronization.fig
.........\Synchronization_imag.fig
.........\test_clipping_code.m
.........\test_code.asv
.........\test_code.m
.........\theoretical.fig
.........\tx_dvbt_platform.mdl
.........\untitled.mdl
.........\Figure
version 2
.........\BER_calculation.asv
.........\clipping.asv
.........\clipping.m
.........\dvbt_platform.mdl
.........\experimental.fig
.........\exper_OFDM.asv
.........\Figure\BER_clipping_OS_1.fig
.........\......\BER_clipping_OS_2.fig
.........\......\BER_clipping_OS_4.fig
.........\......\BER_clipping_SNR.fig
.........\......\BER_filtering_17.fig
.........\......\BER_filtering_SNR.fig
.........\......\fixed_point_analysis_clipping.fig
.........\......\fixed_point_analysis_clipping2.fig
.........\......\fixed_point_analysis_clipping_01.fig
.........\......\fixed_point_analysis_clipping_1.fig
.........\......\fixed_point_analysis_clipping_10.fig
.........\......\fixed_point_analysis_clipping_50.fig
.........\......\Performance_2K_1_004.fig
.........\......\PSD_17_1.fig
.........\......\PSD_17_2.fig
.........\......\PSD_17_2_3.4_3.9_005_1.fig
.........\......\PSD_17_2_3.4_7_005_1.fig
.........\......\PSD_17_4.fig
.........\......\PSD_17_4_3.4_3.9_005_1.fig
.........\......\PSD_17_4_3.4_7_005_1.fig
.........\Float_Initialization.asv
.........\Float_Initialization.m
.........\Float_Main_PAPR_reduction.asv
.........\Float_Main_PAPR_reduction.m
.........\Float_OFDM_clipping.asv
.........\Float_OFDM_clipping.m
.........\Float_PAPR_measurment.asv
.........\Float_PAPR_measurment.m
.........\Float_tx_OFDM_modul.asv
.........\Float_tx_OFDM_modul.m
.........\initialization.asv
.........\maindvbt3_tablegen.m
.........\maindvbt4_tablegen.asv
.........\maindvbt4_tablegen.m
.........\maindvbt5_tablegen.m
.........\main_dvbt.mdl
.........\main_dvbt_tablegen.m
.........\mdl_Initialization.asv
.........\mdl_Initialization.m
.........\mdl_Main_PAPR_reduction.asv
.........\mdl_Main_PAPR_reduction.m
.........\mdl_OFDM_clipping.asv
.........\mdl_OFDM_clipping.m
.........\mdl_PAPR_fildesgn.m
.........\mdl_PAPR_measurment.asv
.........\mdl_PAPR_measurment.m
.........\msfcn_ds.m
.........\msfuntmpl.m
.........\OFDM_clipping.asv
.........\OFDM_demmodul_rx.asv
.........\OFDM_demmodul_rx.m
.........\Original_BER_calculation.asv
.........\Original_BER_calculation.m
.........\PAPR_measurment.asv
.........\papr_reduction.asv
.........\Pilot_Clipped.asv
.........\Pilot_Clipped.m
.........\rx_dvbt_platform.mdl
.........\saturation_lib.mdl
.........\Synchronization.fig
.........\Synchronization_imag.fig
.........\test_clipping_code.m
.........\test_code.asv
.........\test_code.m
.........\theoretical.fig
.........\tx_dvbt_platform.mdl
.........\untitled.mdl
.........\Figure
version 2