clear all;
close all;
carrier_count=200;%子载波数
symbols_per_carrier=12;%每子载波含符号数
bits_per_symbol=4;%每符号含比特数,16QAM调制
IFFT_bin_length=512;%FFT点数
PrefixRatio=1/4;%保护间隔与OFDM数据的比例 1/6~1/4
GI=PrefixRatio*IFFT_bin_length ;%每一个OFDM符号添加的循环前缀长度为1/4*IFFT_bin_length 即保护间隔长度为128
beta=1/32;%窗函数滚降系数
GIP=beta*(IFFT_bin_length+GI);%循环后缀的长度20
SNR=30; %信噪比dB
%==================================================
%================信号产生===================================
baseband_out_length = carrier_count * symbols_per_carrier * bits_per_symbol;%所输入的比特数目
carriers = (1:carrier_count) + (floor(IFFT_bin_length/4) - floor(carrier_count/2));%共轭对称子载波映射 复数数据对应的IFFT点坐标
conjugate_carriers = IFFT_bin_length - carriers + 2;%共轭对称子载波映射 共轭复数对应的IFFT点坐标
rand('twister',0);
baseband_out=round(rand(1,baseband_out_length));%输出待调制的二进制比特流
%==============16QAM调制====================================
complex_carrier_matrix=qam16(baseband_out);%列向量
complex_carrier_matrix=reshape(complex_carrier_matrix',carrier_count,symbols_per_carrier)';%symbols_per_carrier*carrier_count 矩阵
figure(1);
plot(complex_carrier_matrix,'*r');%16QAM调制后星座图
title('16QAM调制后星座图')
axis([-4, 4, -4, 4]);
grid on
%==
% ===============IFFT===========================
IFFT_modulation=zeros(symbols_per_carrier,IFFT_bin_length);%添0组成IFFT_bin_length IFFT 运算
IFFT_modulation(:,carriers ) = complex_carrier_matrix ;%未添加导频信号 ,子载波映射在此处
IFFT_modulation(:,conjugate_carriers ) = conj(complex_carrier_matrix);%共轭复数映射
%=================================================================
signal_after_IFFT=ifft(IFFT_modulation,IFFT_bin_length,2);%OFDM调制 即IFFT变换
time_wave_matrix =signal_after_IFFT;%时域波形矩阵,行为每载波所含符号数,列ITTF点数,N个子载波映射在其内,每一行即为一个OFDM符号
%===========================================================
figure(2);
plot(0:IFFT_bin_length-1,time_wave_matrix(2,:));
axis([0,512,-0.4,0.4]);
grid on;
ylabel('Amplitude');
xlabel('Time');
title('OFDM Time Signel,一个符号');
%=====================添加循环前缀与后缀====================================
XX=zeros(symbols_per_carrier,IFFT_bin_length+GI+GIP);
for k=1:symbols_per_carrier;
for i=1:IFFT_bin_length;
XX(k,i+GI)=signal_after_IFFT(k,i);
end
for i=1:GI;
XX(k,i)=signal_after_IFFT(k,IFFT_bin_length+i-GI);%添加循环前缀
end
for j=1:GIP;
XX(k,IFFT_bin_length+GI+j)=signal_after_IFFT(k,j);%添加循环后缀
end
end
time_wave_matrix_cp=XX;%添加了循环前缀与后缀的时域信号矩阵,此时一个OFDM符号长度为IFFT_bin_length+GI+GIP=660
figure(3);
plot(0:length(time_wave_matrix_cp)-1,time_wave_matrix_cp(2,:));
axis([0,600,-0.3,0.3]);
grid on;
ylabel('Amplitude');
xlabel('Time');
title('OFDM Time Signel with cp,一个带cp符号');
%==============OFDM符号加窗==========================================
windowed_time_wave_matrix_cp=zeros(1,IFFT_bin_length+GI+GIP);
for i = 1:symbols_per_carrier
windowed_time_wave_matrix_cp(i,:) = real(time_wave_matrix_cp(i,:)).*wolawindow(beta,IFFT_bin_length+GI)';%加窗 升余弦窗
end
%========================生成发送信号,并串变换==================================================
windowed_Tx_data=zeros(1,symbols_per_carrier*(IFFT_bin_length+GI)+GIP);
windowed_Tx_data(1:IFFT_bin_length+GI+GIP)=windowed_time_wave_matrix_cp(1,:);
for i = 1:symbols_per_carrier-1 ;
windowed_Tx_data((IFFT_bin_length+GI)*i+1:(IFFT_bin_length+GI)*(i+1)+GIP)=windowed_time_wave_matrix_cp(i+1,:);
%并串转换,循环后缀与循环前缀相叠加
end
figure(4);
plot(0:IFFT_bin_length+GI+GIP-1,windowed_time_wave_matrix_cp(2,:));
axis([0,700,-0.2,0.2]);
grid on;
ylabel('Amplitude');
xlabel('Time');
title('OFDM Time Signel with window,一个带cp加窗符号');
windowed_Tx_data=zeros(1,symbols_per_carrier*(IFFT_bin_length+GI)+GIP);
windowed_Tx_data(1:IFFT_bin_length+GI+GIP)=windowed_time_wave_matrix_cp(1,:);
for i = 1:symbols_per_carrier-1;
windowed_Tx_data((IFFT_bin_length+GI)*i+1:(IFFT_bin_length+GI)*(i+1)+GIP)=windowed_time_wave_matrix_cp(i+1,:);
end
Tx_data_no_windowed=reshape(time_wave_matrix_cp',(symbols_per_carrier)*(IFFT_bin_length+GI+GIP),1)';
%=======================================================
Tx_data=reshape(windowed_time_wave_matrix_cp',(symbols_per_carrier)*(IFFT_bin_length+GI+GIP),1)';%加窗后 循环前缀与后缀不叠加 的串行信号
%=================================================================
temp_time1 = (symbols_per_carrier)*(IFFT_bin_length+GI+GIP);%加窗后 循环前缀与后缀不叠加 发送总位数
figure (5)
subplot(2,1,1);
plot(0:temp_time1-1,Tx_data );%循环前缀与后缀不叠加 发送的信号波形
grid on
ylabel('Amplitude (volts)')
xlabel('Time (samples)')
title('循环前后缀不叠加的OFDM Time Signal')
temp_time2 =symbols_per_carrier*(IFFT_bin_length+GI)+GIP;
subplot(2,1,2);
plot(0:temp_time2-1,windowed_Tx_data);%循环后缀与循环前缀相叠加 发送信号波形
grid on
ylabel('Amplitude (volts)')
xlabel('Time (samples)')
title('循环前后缀叠加的OFDM Time Signal')
%===============加窗的发送信号频谱=================================
symbols_per_average = ceil(symbols_per_carrier/5);%符号数的1/5,10行
avg_temp_time = (IFFT_bin_length+GI+GIP)*symbols_per_average;%点数,10行数据,10个符号
averages = floor(temp_time1/avg_temp_time);
average_fft(1:avg_temp_time) = 0;%分成5段
for a = 0:(averages-1)
subset_ofdm = Tx_data_no_windowed(((a*avg_temp_time)+1):((a+1)*avg_temp_time));%利用循环前缀后缀未叠加的串行加窗信号计算频谱
subset_ofdm_f = abs(fft(subset_ofdm));%分段求频谱
average_fft = average_fft + (subset_ofdm_f/averages);%总共的数据分为5段,分段进行FFT,平均相加
end
average_fft_log = 20*log10(average_fft);
figure (6)
subplot(2,1,1)
plot((0:(avg_temp_time-1))/avg_temp_time, average_fft_log)%归一化 0/avg_temp_time : (avg_temp_time-1)/avg_temp_time
hold on
% plot(0:1/IFFT_bin_length:1, -35, 'rd')
grid on
axis([0 0.5 -20 max(average_fft_log)])
ylabel('Magnitude (dB)')
xlabel('Normalized Frequency (0.5 = fs/2)')
title('OFDM发送信号频谱')
symbols_per_average = ceil(symbols_per_carrier/5);%符号数的1/5,10行
avg_temp_time = (IFFT_bin_length+GI+GIP)*symbols_per_average;%点数,10行数据,10个符号
averages = floor(temp_time1/avg_temp_time);
average_fft(1:avg_temp_time) = 0;%分成5段
for a = 0:(averages-1)
subset_ofdm = Tx_data(((a*avg_temp_time)+1):((a+1)*avg_temp_time));%利用循环前缀后缀未叠加的串行加窗信号计算频谱
subset_ofdm_f = abs(fft(subset_ofdm));%分段求频谱
average_fft = average_fft + (subset_ofdm_f/averages);%总共的数据分为5段,分段进行FFT,平均相加
end
average_fft_log = 20*log10(average_fft);
subplot(2,1,2)
plot((0:(avg_temp_time-1))/avg_temp_time, average_fft_log)%归一化 0/avg_temp_time : (avg_temp_time-1)/avg_temp_time
hold on
grid on
axis([0 0.5 -20 max(average_fft_log)])
ylabel('Magnitude (dB)')
xlabel('Normalized Frequency (0.5 = fs/2)')
title('加窗OFDM发送信号频谱')
%====================添加噪声=================================
Tx_signal_power = var(windowed_Tx_data);%发送信号功率
linear_SNR=10^(SNR/10);%线性信噪比
noise_sigma=Tx_signal_power/linear_SNR;
noise_scale_factor = sqrt(noise_sigma);%标准差sigma
noise=randn(1,((symbols_per_carrier)*(IFFT_bin_length+GI))+GIP)*noise_scale_factor;%产生正态分布噪声序列
Rx_data=windowed_Tx_data +noise;%接收到的信号加噪声
%=====================接收信号 串/并变换 去除前缀与后缀==========================================
Rx_data_matrix=zeros(symbols_per_carrier,IFFT_bin_length+GI+GIP);
for i=1:symbols_per_carrier;
Rx_data_matrix(i,:)=Rx_data(1,(i-1)*(IFFT_bin_length+GI)+1:i*(IFFT_bin_length+GI)+GIP);%串并变换
end
Rx_data_complex_matrix=Rx_data_matrix(:,GI+1:IFFT_bin_length+GI);%去除循环前缀与循环后缀,得到有用信号矩阵
%==============================================================
% OFDM解码 16QAM解码
%=================FFT变换=============================
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