文件名称:OFDMsimulink
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实现的通信中正交频分复用的过程,包括OFDM的一些信号处理的算法-To achieve communication in orthogonal frequency division multiplexing process, including a number of OFDM signal processing algorithms
相关搜索: ofdmsimulink
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下载文件列表
OFDMsimulink\demoduqam16.m
............\OFDMdemo.m
............\qam16.m
............\qpsk.m
............\rcoswindow.m
OFDMsimulink
PTS\papr_subs.m
...\papr_suiji_xianglin_jiaozhi.m
PTS
SLM\papr_1000_2.m
...\slm_16QAM.asv
...\slm_16QAM.m
...\slm_4PSK.m
...\slm_lilun.m
...\xinhaofudu.m
SLM
power submit\chow算法\chow_algo.m
............\........\chow_use.fig
............\........\Demo_chow.m
............\Fischer算法\Demo_Fischer.m
............\...........\Fischer.m
............\...........\Fischer_use.fig
............\Hughes-Hartogs算法\demo_Hughes_Hartogs.m
............\..................\fig1.fig
............\..................\fig2.fig
............\..................\fig3.fig
............\..................\fig4.fig
............\..................\fig5.fig
............\..................\fig6.fig
............\..................\f_mpsk.m
............\..................\f_mqam.m
............\..................\Hughes_Hartogs.m
............\..................\Q.m
............\..................\Qinv.m
............\..................\use.fig
............\三种算法比特功率分配比较\chow_algo.m
............\........................\Demo.asv
............\........................\Demo.m
............\........................\figure\bit.fig
............\........................\......\bit2.fig
............\........................\......\bit_0.fig
............\........................\......\bit_good.fig
............\........................\......\bit_paper_use.fig
............\........................\......\bit_turth.fig
............\........................\......\bit_use.fig
............\........................\......\power_good.fig
............\........................\......\power_paper_use.fig
............\........................\......\power_use.fig
............\........................\Fischer.m
............\........................\f_mpsk.m
............\........................\f_mqam.m
............\........................\Hughes_Hartogs.m
............\........................\Q.m
............\........................\Qinv.m
............\........的误码率比较\Adaptive_OFDM.asv
............\....................\Adaptive_OFDM.m
............\....................\Algo_xia.m
............\....................\BER_calculation.m
............\....................\Channel_estimation.m
............\....................\Channel_Transmit.m
............\....................\chow_algo.m
............\....................\Code_bit.mat
............\....................\Demodulation_mqam.m
............\....................\EBA_EPA.m
............\....................\Fischer.m
............\....................\f_mpsk.m
............\....................\f_mqam.m
............\....................\GI_insert.m
............\....................\Gngauss.m
............\....................\Hughes_Hartogs.m
............\....................\MaxC_EPA.m
............\....................\Modulation_mqam.m
............\....................\MQAM_space.mat
............\....................\Multipath_Channel_Init.m
............\....................\PtoS_convert.m
............\....................\Q.m
............\....................\Qinv.m
............\....................\Receive_estimation.m
............\....................\Resource_alloc.m
............\....................\ser_16QAM_EP.am
............\....................\ser_bijiao.asv
............\....................\ser_bijiao.m
............\....................\ser_chow.am
............\....................\ser_F.am
............\....................\ser_H.am
............\....................\SNR_sub.m
............\....................\SNR_subc.m
............\....................\StoP_convert.m
............\....................\waterfill.m
............\........比特功率分配比较\figure
............\chow算法
............\Fischer算法
............\Hughes-Hartogs算法
............\三种算法比特功率分配比较
............\三种算法的误码率比较
power submit
............\OFDMdemo.m
............\qam16.m
............\qpsk.m
............\rcoswindow.m
OFDMsimulink
PTS\papr_subs.m
...\papr_suiji_xianglin_jiaozhi.m
PTS
SLM\papr_1000_2.m
...\slm_16QAM.asv
...\slm_16QAM.m
...\slm_4PSK.m
...\slm_lilun.m
...\xinhaofudu.m
SLM
power submit\chow算法\chow_algo.m
............\........\chow_use.fig
............\........\Demo_chow.m
............\Fischer算法\Demo_Fischer.m
............\...........\Fischer.m
............\...........\Fischer_use.fig
............\Hughes-Hartogs算法\demo_Hughes_Hartogs.m
............\..................\fig1.fig
............\..................\fig2.fig
............\..................\fig3.fig
............\..................\fig4.fig
............\..................\fig5.fig
............\..................\fig6.fig
............\..................\f_mpsk.m
............\..................\f_mqam.m
............\..................\Hughes_Hartogs.m
............\..................\Q.m
............\..................\Qinv.m
............\..................\use.fig
............\三种算法比特功率分配比较\chow_algo.m
............\........................\Demo.asv
............\........................\Demo.m
............\........................\figure\bit.fig
............\........................\......\bit2.fig
............\........................\......\bit_0.fig
............\........................\......\bit_good.fig
............\........................\......\bit_paper_use.fig
............\........................\......\bit_turth.fig
............\........................\......\bit_use.fig
............\........................\......\power_good.fig
............\........................\......\power_paper_use.fig
............\........................\......\power_use.fig
............\........................\Fischer.m
............\........................\f_mpsk.m
............\........................\f_mqam.m
............\........................\Hughes_Hartogs.m
............\........................\Q.m
............\........................\Qinv.m
............\........的误码率比较\Adaptive_OFDM.asv
............\....................\Adaptive_OFDM.m
............\....................\Algo_xia.m
............\....................\BER_calculation.m
............\....................\Channel_estimation.m
............\....................\Channel_Transmit.m
............\....................\chow_algo.m
............\....................\Code_bit.mat
............\....................\Demodulation_mqam.m
............\....................\EBA_EPA.m
............\....................\Fischer.m
............\....................\f_mpsk.m
............\....................\f_mqam.m
............\....................\GI_insert.m
............\....................\Gngauss.m
............\....................\Hughes_Hartogs.m
............\....................\MaxC_EPA.m
............\....................\Modulation_mqam.m
............\....................\MQAM_space.mat
............\....................\Multipath_Channel_Init.m
............\....................\PtoS_convert.m
............\....................\Q.m
............\....................\Qinv.m
............\....................\Receive_estimation.m
............\....................\Resource_alloc.m
............\....................\ser_16QAM_EP.am
............\....................\ser_bijiao.asv
............\....................\ser_bijiao.m
............\....................\ser_chow.am
............\....................\ser_F.am
............\....................\ser_H.am
............\....................\SNR_sub.m
............\....................\SNR_subc.m
............\....................\StoP_convert.m
............\....................\waterfill.m
............\........比特功率分配比较\figure
............\chow算法
............\Fischer算法
............\Hughes-Hartogs算法
............\三种算法比特功率分配比较
............\三种算法的误码率比较
power submit