文件名称:cooperative
介绍说明--下载内容均来自于网络,请自行研究使用
一个协作通信系统的仿真,包括AF,DF协作方式,接收端采用不同的合并方式(最大比合并,选择合并)进行合并.根据接收端不同的接收合并方式进行最优功率分配-A cooperative communication system with AF,DF
相关搜索: cooperative
cooperative
communication
DF
matlab
协作
协作通信
DF
cooperative
matlab
cooperative
COOPERATIVE-DIVERSITY
cooperative
df
cooperative
communication
DF
matlab
协作
协作通信
DF
cooperative
matlab
cooperative
COOPERATIVE-DIVERSITY
cooperative
df
(系统自动生成,下载前可以参看下载内容)
下载文件列表
cooperative
...........\0_3_2_1.fig
...........\1-075-025.fig
...........\1sender_2senders_compare.fig
...........\1_025_075.fig
...........\AAF_FRC_compare.fig
...........\add2statistic.m
...........\add_channel_effect.m
...........\add_channel_effect_noNoise.m
...........\add_PA_and_channel_effect.m
...........\add_PA_and_white_noise.m
...........\AP.fig
...........\ber.m
...........\ber2SNR_DAF.m
...........\ber_2_sender.m
...........\bit2symbol.m
...........\calculate_signal_parameter.m
...........\dou.fig
...........\erc.fig
...........\ERC_distance.fig
...........\ERC_equal_111PA.fig
...........\ERC_equal_PA.fig
...........\ERC_PA.fig
...........\esnrc.fig
...........\ESNRC_distance.fig
...........\ESNRC_PA1.fig
...........\estimate_direct_channel_SNR.m
...........\estimate_via_channel_SNR.m
...........\frc-best1101.fig
...........\FRC_21_31_41.fig
...........\FRC_equal_101010_21.fig
...........\FRC_PA.fig
...........\generate_channel_structure.m
...........\generate_relay_structure.m
...........\generate_rx_structure.m
...........\generate_signal_structure.m
...........\generate_statistic_structure.m
...........\get_channel_muti_parameter.m
...........\get_channel_white_noise.m
...........\jilu.fig
...........\jilu111.fig
...........\main1.m
...........\main_2_sender.m
...........\main_2_sender_no_ERC.m
...........\main_statistic.m
...........\methord_cp1_question.fig
...........\MRC.fig
...........\MRCbest.fig
...........\MRC_distance.fig
...........\MRC_PA.fig
...........\PA_ERC.fig
...........\power_allocate.m
...........\power_control.m
...........\prepare_relay2send.m
...........\q.m
...........\qinv.m
...........\rx_combine.m
...........\rx_correct_phaseshift.m
...........\rx_reset.m
...........\show_statistic.m
...........\symbol2bit.m
...........\0_3_2_1.fig
...........\1-075-025.fig
...........\1sender_2senders_compare.fig
...........\1_025_075.fig
...........\AAF_FRC_compare.fig
...........\add2statistic.m
...........\add_channel_effect.m
...........\add_channel_effect_noNoise.m
...........\add_PA_and_channel_effect.m
...........\add_PA_and_white_noise.m
...........\AP.fig
...........\ber.m
...........\ber2SNR_DAF.m
...........\ber_2_sender.m
...........\bit2symbol.m
...........\calculate_signal_parameter.m
...........\dou.fig
...........\erc.fig
...........\ERC_distance.fig
...........\ERC_equal_111PA.fig
...........\ERC_equal_PA.fig
...........\ERC_PA.fig
...........\esnrc.fig
...........\ESNRC_distance.fig
...........\ESNRC_PA1.fig
...........\estimate_direct_channel_SNR.m
...........\estimate_via_channel_SNR.m
...........\frc-best1101.fig
...........\FRC_21_31_41.fig
...........\FRC_equal_101010_21.fig
...........\FRC_PA.fig
...........\generate_channel_structure.m
...........\generate_relay_structure.m
...........\generate_rx_structure.m
...........\generate_signal_structure.m
...........\generate_statistic_structure.m
...........\get_channel_muti_parameter.m
...........\get_channel_white_noise.m
...........\jilu.fig
...........\jilu111.fig
...........\main1.m
...........\main_2_sender.m
...........\main_2_sender_no_ERC.m
...........\main_statistic.m
...........\methord_cp1_question.fig
...........\MRC.fig
...........\MRCbest.fig
...........\MRC_distance.fig
...........\MRC_PA.fig
...........\PA_ERC.fig
...........\power_allocate.m
...........\power_control.m
...........\prepare_relay2send.m
...........\q.m
...........\qinv.m
...........\rx_combine.m
...........\rx_correct_phaseshift.m
...........\rx_reset.m
...........\show_statistic.m
...........\symbol2bit.m