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% OFDM_basic.m这是主程序,做ofdm仿真的,调用到函数ber的时候,一直出错
clear all
NgType=1; % NgType=1/2 for cyclic prefix/zero padding
if NgType==1, nt='CP'; elseif NgType==2, nt='ZP'; end
Ch=0; % Ch=0/1 for AWGN/multipath channel
if Ch==0, chType='AWGN'; Target_neb=100; else chType='CH'; Target_neb=500; end
figure(Ch+1), clf
PowerdB=[0 -8 -17 -21 -25]; % Channel tap power profile ’dB’
Delay=[0 3 5 6 8]; % Channel delay ’sample’
Power=10.^(PowerdB/10); % Channel tap power profile ’linear scale’
Ntap=length(PowerdB); % Chanel tap number
Lch=Delay(end)+1; % Channel length
Nbps=4; M=2^Nbps; % Modulation order=2/4/6 for QPSK/16QAM/64QAM
Nfft=64; % FFT size
Ng=Nfft/4; % GI (Guard Interval) length (Ng=0 for no GI)
Nsym=Nfft+Ng; % Symbol duration
Nvc=Nfft/4; % Nvc=0: no VC (virtual carrier)
Nused=Nfft-Nvc;
EbN0=[0:5:30]; % EbN0
N_iter=1e5; % Number of iterations for each EbN0
Nframe=3; % Number of symbols per frame
sigPow=0; % Signal power initialization
file_name=['OFDM_BER_' chType '_' nt '_' 'GL' num2str(Ng) '.dat'];
fid=fopen(file_name, 'w+');
norms=[1 sqrt(2) 0 sqrt(10) 0 sqrt(42)]; % BPSK 4-QAM 16-QAM
for i=0:length(EbN0)
randn('state',0);
rand('state',0);
Ber2=ber(); % BER initialization
Neb=0; Ntb=0; % Initialize the number of error/total bits
for m=1:N_iter
% Tx______________________________________________________________
X=randint(1,Nused*Nframe,M); % bit: integer vector
Xmod= qammod(X,M,0,'gray')/norms(Nbps);
if NgType~=2, x_GI=zeros(1,Nframe*Nsym);
elseif NgType==2, x_GI= zeros(1,Nframe*Nsym+Ng);
% Extend an OFDM symbol by Ng zeros
end
kk1=[1:Nused/2]; kk2=[Nused/2+1:Nused]; kk3=1:Nfft; kk4=1:Nsym;
for k=1:Nframe
if Nvc~=0, X_shift= [0 Xmod(kk2) zeros(1,Nvc-1) Xmod(kk1)];
else X_shift= [Xmod(kk2) Xmod(kk1)];
end
x= ifft(X_shift);
x_GI(kk4)= guard_interval(Ng,Nfft,NgType,x);
kk1=kk1+Nused; kk2= kk2+Nused; kk3=kk3+Nfft; kk4=kk4+Nsym;
end
if Ch==0, y= x_GI; % No channel
else % Multipath fading channel
channel=(randn(1,Ntap)+j*randn(1,Ntap)).*sqrt(Power/2);
h=zeros(1,Lch); h(Delay+1)=channel; % cir: channel impulse response
y = conv(x_GI,h);
end
if i==0 % Only to measure the signal power for adding AWGN noise
y1=y(1:Nframe*Nsym); sigPow = sigPow + y1*y1'; continue;
end
% Add AWGN noise________________________________________________
snr = EbN0(i)+10*log10(Nbps*(Nused/Nfft)); % SNR vs. Eb/N0 by Eq.(4.28)
noise_mag = sqrt((10.^(-snr/10))*sigPow/2);
y_GI = y + noise_mag*(randn(size(y))+j*randn(size(y)));
% Rx_____________________________________________________________
kk1=(NgType==2)*Ng+[1:Nsym]; kk2=1:Nfft;
kk3=1:Nused; kk4=Nused/2+Nvc+1:Nfft; kk5=(Nvc~=0)+[1:Nused/2];
if Ch==1
H= fft([h zeros(1,Nfft-Lch)]); % Channel frequency response
H_shift(kk3)= [H(kk4) H(kk5)];
end
for k=1:Nframe
Y(kk2)= fft(remove_GI(Ng,Nsym,NgType,y_GI(kk1)));
Y_shift=[Y(kk4) Y(kk5)];
if Ch==0, Xmod_r(kk3) = Y_shift;
else Xmod_r(kk3)=Y_shift./H_shift; % Equalizer - channel compensation
end
kk1=kk1+Nsym; kk2=kk2+Nfft; kk3=kk3+Nused; kk4=kk4+Nfft;
kk5=kk5+Nfft;
end
X_r=qamdemod(Xmod_r*norms(Nbps),M,0,'gray');
Neb=Neb+sum(sum(de2bi(X_r,Nbps)~=de2bi(X,Nbps)));
Ntb=Ntb+Nused*Nframe*Nbps; %[Ber,Neb,Ntb]=ber(bit_Rx,bit,Nbps);
if Neb>Target_neb, break; end
end
if i==0, sigPow= sigPow/Nsym/Nframe/N_iter;
else
Ber = Neb/Ntb;
fprintf('EbN0=%3d[dB], BER=%4d/%8d =%11.3e\n', EbN0(i), Neb,Ntb,Ber)
fprintf(fid, '%d\t%11.3e\n', EbN0(i), Ber);
if Ber<1e-6, break; end
end
end
if (fid~=0), fclose(fid); end
plot_ber(file_name,Nbps);
下面是几个用到的函数,
function y=remove_GI(Ng,Lsym,NgType,ofdmSym)
if Ng~=0
if NgType==1, y=ofdmSym(Ng+1:Lsym); % cyclic prefix
elseif NgType==2 % cyclic suffix
y=ofdmSym(1:Lsym-Ng)+[ofdmSym(Lsym-Ng+1:Lsym) zeros (1,Lsym-2*Ng)];
end
else y=ofdmSym;
end
function y=Q(x)
% co-error function: 1/sqrt(2*pi) * int_x^inf exp(-t^2/2) dt. % Eq.(4.27)
y=erfc(x/sqrt(2))/2;
function plot_ber(file_name,Nbps)
EbN0dB=[0:1:30]; M=2^Nbps;
ber_AWGN = ber_QAM(EbN0dB,M,'AWGN');
ber_Rayleigh = ber_QAM(EbN0dB,M,'Rayleigh');
semilogy(EbN0dB,ber_AWGN,'r:'), hold on,
semilogy(EbN0dB,ber_Rayleigh,'r-')
a= load(file_name); semilogy(a(:,1),a(:,2),'b–s'); grid on
legend('AWGN analytic','Rayleigh fading analytic', 'Simulation');
xlabel('EbN0[dB]'), ylabel('BER'); axis([a(1,1) a(end,1) 1e-5 1])
function y = guard_interval(Ng,Nfft,NgType,ofdmSym)
if NgType==1, y=[ofdmSym(Nfft-Ng+1:Nfft) ofdmSym(1:Nfft)];
elseif NgType==2, y=[zeros(1,Ng) ofdmSym(1:Nfft)];
end
function ber=ber_QAM(EbN0dB,M,AWGN_or_Rayleigh)
% Find analytical BER of M-ary QAM in AWGN or Rayleigh channel
% EbN0dB=EbN0dB: Energy per bit-to-noise power[dB] for AWGN channel
% =rdB : Average SNR(2*sigma Eb/N0)[dB] for Rayleigh channel
% M = Modulation order (Alphabet or Constellation size)
N= length(EbN0dB); sqM= sqrt(M);
a= 2*(1-power(sqM,-1))/log2(sqM); b= 6*log2(sqM)/(M-1);
if nargin<3, AWGN_or_Rayleigh='AWGN'; end
if lower(AWGN_or_Rayleigh(1))=='a'
ber = a*Q(sqrt(b*10.^(EbN0dB/10))); % ber=berawgn(EbN0dB,’QAM’,M) Eq.(4.25)
else % diversity_order=1; ber=berfading(EbN0dB,’QAM’,M,diversity_order)
rn=b*10.^(EbN0dB/10)/2; ber = 0.5*a*(1-sqrt(rn./(rn+1))); % Eq.(4.26)
end
调用时一直报错,说ber函数或者变量未定义
clear all
NgType=1; % NgType=1/2 for cyclic prefix/zero padding
if NgType==1, nt='CP'; elseif NgType==2, nt='ZP'; end
Ch=0; % Ch=0/1 for AWGN/multipath channel
if Ch==0, chType='AWGN'; Target_neb=100; else chType='CH'; Target_neb=500; end
figure(Ch+1), clf
PowerdB=[0 -8 -17 -21 -25]; % Channel tap power profile ’dB’
Delay=[0 3 5 6 8]; % Channel delay ’sample’
Power=10.^(PowerdB/10); % Channel tap power profile ’linear scale’
Ntap=length(PowerdB); % Chanel tap number
Lch=Delay(end)+1; % Channel length
Nbps=4; M=2^Nbps; % Modulation order=2/4/6 for QPSK/16QAM/64QAM
Nfft=64; % FFT size
Ng=Nfft/4; % GI (Guard Interval) length (Ng=0 for no GI)
Nsym=Nfft+Ng; % Symbol duration
Nvc=Nfft/4; % Nvc=0: no VC (virtual carrier)
Nused=Nfft-Nvc;
EbN0=[0:5:30]; % EbN0
N_iter=1e5; % Number of iterations for each EbN0
Nframe=3; % Number of symbols per frame
sigPow=0; % Signal power initialization
file_name=['OFDM_BER_' chType '_' nt '_' 'GL' num2str(Ng) '.dat'];
fid=fopen(file_name, 'w+');
norms=[1 sqrt(2) 0 sqrt(10) 0 sqrt(42)]; % BPSK 4-QAM 16-QAM
for i=0:length(EbN0)
randn('state',0);
rand('state',0);
Ber2=ber(); % BER initialization
Neb=0; Ntb=0; % Initialize the number of error/total bits
for m=1:N_iter
% Tx______________________________________________________________
X=randint(1,Nused*Nframe,M); % bit: integer vector
Xmod= qammod(X,M,0,'gray')/norms(Nbps);
if NgType~=2, x_GI=zeros(1,Nframe*Nsym);
elseif NgType==2, x_GI= zeros(1,Nframe*Nsym+Ng);
% Extend an OFDM symbol by Ng zeros
end
kk1=[1:Nused/2]; kk2=[Nused/2+1:Nused]; kk3=1:Nfft; kk4=1:Nsym;
for k=1:Nframe
if Nvc~=0, X_shift= [0 Xmod(kk2) zeros(1,Nvc-1) Xmod(kk1)];
else X_shift= [Xmod(kk2) Xmod(kk1)];
end
x= ifft(X_shift);
x_GI(kk4)= guard_interval(Ng,Nfft,NgType,x);
kk1=kk1+Nused; kk2= kk2+Nused; kk3=kk3+Nfft; kk4=kk4+Nsym;
end
if Ch==0, y= x_GI; % No channel
else % Multipath fading channel
channel=(randn(1,Ntap)+j*randn(1,Ntap)).*sqrt(Power/2);
h=zeros(1,Lch); h(Delay+1)=channel; % cir: channel impulse response
y = conv(x_GI,h);
end
if i==0 % Only to measure the signal power for adding AWGN noise
y1=y(1:Nframe*Nsym); sigPow = sigPow + y1*y1'; continue;
end
% Add AWGN noise________________________________________________
snr = EbN0(i)+10*log10(Nbps*(Nused/Nfft)); % SNR vs. Eb/N0 by Eq.(4.28)
noise_mag = sqrt((10.^(-snr/10))*sigPow/2);
y_GI = y + noise_mag*(randn(size(y))+j*randn(size(y)));
% Rx_____________________________________________________________
kk1=(NgType==2)*Ng+[1:Nsym]; kk2=1:Nfft;
kk3=1:Nused; kk4=Nused/2+Nvc+1:Nfft; kk5=(Nvc~=0)+[1:Nused/2];
if Ch==1
H= fft([h zeros(1,Nfft-Lch)]); % Channel frequency response
H_shift(kk3)= [H(kk4) H(kk5)];
end
for k=1:Nframe
Y(kk2)= fft(remove_GI(Ng,Nsym,NgType,y_GI(kk1)));
Y_shift=[Y(kk4) Y(kk5)];
if Ch==0, Xmod_r(kk3) = Y_shift;
else Xmod_r(kk3)=Y_shift./H_shift; % Equalizer - channel compensation
end
kk1=kk1+Nsym; kk2=kk2+Nfft; kk3=kk3+Nused; kk4=kk4+Nfft;
kk5=kk5+Nfft;
end
X_r=qamdemod(Xmod_r*norms(Nbps),M,0,'gray');
Neb=Neb+sum(sum(de2bi(X_r,Nbps)~=de2bi(X,Nbps)));
Ntb=Ntb+Nused*Nframe*Nbps; %[Ber,Neb,Ntb]=ber(bit_Rx,bit,Nbps);
if Neb>Target_neb, break; end
end
if i==0, sigPow= sigPow/Nsym/Nframe/N_iter;
else
Ber = Neb/Ntb;
fprintf('EbN0=%3d[dB], BER=%4d/%8d =%11.3e\n', EbN0(i), Neb,Ntb,Ber)
fprintf(fid, '%d\t%11.3e\n', EbN0(i), Ber);
if Ber<1e-6, break; end
end
end
if (fid~=0), fclose(fid); end
plot_ber(file_name,Nbps);
下面是几个用到的函数,
function y=remove_GI(Ng,Lsym,NgType,ofdmSym)
if Ng~=0
if NgType==1, y=ofdmSym(Ng+1:Lsym); % cyclic prefix
elseif NgType==2 % cyclic suffix
y=ofdmSym(1:Lsym-Ng)+[ofdmSym(Lsym-Ng+1:Lsym) zeros (1,Lsym-2*Ng)];
end
else y=ofdmSym;
end
function y=Q(x)
% co-error function: 1/sqrt(2*pi) * int_x^inf exp(-t^2/2) dt. % Eq.(4.27)
y=erfc(x/sqrt(2))/2;
function plot_ber(file_name,Nbps)
EbN0dB=[0:1:30]; M=2^Nbps;
ber_AWGN = ber_QAM(EbN0dB,M,'AWGN');
ber_Rayleigh = ber_QAM(EbN0dB,M,'Rayleigh');
semilogy(EbN0dB,ber_AWGN,'r:'), hold on,
semilogy(EbN0dB,ber_Rayleigh,'r-')
a= load(file_name); semilogy(a(:,1),a(:,2),'b–s'); grid on
legend('AWGN analytic','Rayleigh fading analytic', 'Simulation');
xlabel('EbN0[dB]'), ylabel('BER'); axis([a(1,1) a(end,1) 1e-5 1])
function y = guard_interval(Ng,Nfft,NgType,ofdmSym)
if NgType==1, y=[ofdmSym(Nfft-Ng+1:Nfft) ofdmSym(1:Nfft)];
elseif NgType==2, y=[zeros(1,Ng) ofdmSym(1:Nfft)];
end
function ber=ber_QAM(EbN0dB,M,AWGN_or_Rayleigh)
% Find analytical BER of M-ary QAM in AWGN or Rayleigh channel
% EbN0dB=EbN0dB: Energy per bit-to-noise power[dB] for AWGN channel
% =rdB : Average SNR(2*sigma Eb/N0)[dB] for Rayleigh channel
% M = Modulation order (Alphabet or Constellation size)
N= length(EbN0dB); sqM= sqrt(M);
a= 2*(1-power(sqM,-1))/log2(sqM); b= 6*log2(sqM)/(M-1);
if nargin<3, AWGN_or_Rayleigh='AWGN'; end
if lower(AWGN_or_Rayleigh(1))=='a'
ber = a*Q(sqrt(b*10.^(EbN0dB/10))); % ber=berawgn(EbN0dB,’QAM’,M) Eq.(4.25)
else % diversity_order=1; ber=berfading(EbN0dB,’QAM’,M,diversity_order)
rn=b*10.^(EbN0dB/10)/2; ber = 0.5*a*(1-sqrt(rn./(rn+1))); % Eq.(4.26)
end
调用时一直报错,说ber函数或者变量未定义
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6楼2015-05-26 16:06
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