hi, im work with smart antenna beamforming and i will use swarm optimization algorithm the problem is :i want to design 3d Hexagonal Prism Array im work with this code that i have in it apatteren with out any directionaly!!can some one help me
2 visualizzazioni (ultimi 30 giorni)
Mostra commenti meno recenti
%%in this code i use the last mean square algorithm%%
clc;
clear;
fo=900*10^6;
co=3*10^8;
lm=co/fo;
M = 22;
DOAu1 =0;
a=lm/4;
b=lm/2;
c=3*lm/4;
d=lm;
e=1.5*lm;
f=2*lm;
g=3*lm;
dis=b;
d1=0.6667;
d2=1.1547;
d3=1.3333;
d4=1.1547;
d5=0.6667;
DOAu11=DOAu1*pi/180;
u1 =sign(randn(1,500));
n=length(u1);
nn=(randn(n,M)+j*randn(n,M))*0.1;
mu=0.008;
Tu1=20*10^(-6);
ru=zeros(3,M);
xu=zeros(3,M);
XU=zeros(1,M);
yu=zeros(3,M);
eu=zeros(3,n);
Bu=zeros(3,n);
wu=zeros(3,M);
Gainu1=0.5*(exp(j*pi/2));
for k=1:n
U1=Gainu1*repmat(u1(k),1,M);
for m=1:M
ph =90; % E-plane, phi = 90 for H-plane
phi = ph*pi/180;
Kx=dis*2*pi*sin(DOAu11)*cos(phi);
Ky=dis*2*pi*sin(DOAu11)*sin(phi);
Kz=dis*2*pi*cos(phi);
Au1=exp(-j*2*pi*f*Tu1);
AF1(m)=exp(-j*2*pi*(m-1)*dis*sin(DOAu11)/lm)*exp(-j*(m-1)*Kz*dis);
AF2(m)=exp(-j*2*pi*(m-1)*dis*sin(DOAu11)*cos(phi-(pi/3))/lm)*exp(-j*(m-1)*Kz*dis)*exp(-j*Kx*d1);
AF3(m)=exp(-j*2*pi*(m-1)*dis*sin(DOAu11)*cos(phi-2*pi/3)/lm)*exp(-j*(m-1)*Kz*dis)*exp((-j*Kx*cos(pi/6)+Ky*sin(pi/6))*d2);
AF4(m)=exp(-j*2*pi*(m-1)*dis*sin(DOAu11)*cos(phi-pi))*exp(-j*(m-1)*Kz*dis)*exp((-j*Kx*cos(2*pi/6)+Ky*sin(2*pi/6))*d3);
AF5(m)=exp(-j*2*pi*(m-1)*dis*sin(DOAu11)*cos(phi-(4*pi/3))*exp(-j*(m-1)*Kz*dis)*exp((-j*Kx*cos(3*pi/6)+Ky*sin(3*pi/6))*d4));
AF6(m)=exp(-j*2*pi*(m-1)*dis*sin(DOAu11)*cos(phi-(5*pi/3))*exp(-j*(m-1)*Kz*dis)*exp((-j*Kx*cos(4*pi/6)+Ky*sin(4*pi/6))*d5));
Bu1(m)=AF1(m)+AF2(m)+AF3(m)+AF4(m)+AF5(m)+AF6(m);
ru(1,m)=U1(m)*Au1*Bu1(m);
xu(1,m)=ru(1,m)+nn(k,m);
end;
%Calculat error
yu(1,k)=xu(1,:)*wu(1,:)';
eu(1,k)=u1(k)-yu(1,k);
wu(1,:)=wu(1,:)+mu*xu(1,:)*conj(eu(1,k));
Bu(1,k)=eu(1,k)*eu(1,k)';
end;
q=0;
wu(1,:)=conj(wu(1,:));
for angle1=-90*pi/180:1*pi/180:90*pi/180;
q=q+1;
AF11(q)=exp(j*(m-1)*2*pi*dis*sin(angle1)/lm)*exp(j*(m-1)*Kz*dis);
AF21(q)=exp(j*(m-1)*2*pi*dis*sin(angle1)*cos(phi-(pi/3))/lm)*exp(j*(m-1)*Kz*dis)*exp(j*Kx*d1);
AF31(q)=exp(j*(m-1)*2*pi*dis*sin(angle1)*cos(phi-2*pi/3)/lm)*exp(j*(m-1)*Kz*dis)*exp((j*Kx*cos(pi/6)+Ky*sin(pi/6))*d2);
AF41(q)=exp(j*(m-1)*2*pi*dis*sin(angle1)*cos(phi-pi))*exp(j*Kz*dis)*exp((j*(m-1)*Kx*cos(2*pi/6)+Ky*sin(2*pi/6))*d3);
AF51(q)=exp(j*(m-1)*2*pi*dis*sin(angle1)*cos(phi-(4*pi/3))*exp(j*Kz*dis)*exp((j*(m-1)*Kx*cos(3*pi/6)+Ky*sin(3*pi/6))*d4));
AF61(q)=exp(j*(m-1)*2*pi*dis*sin(angle1)*cos(phi-(5*pi/3))*exp(j*Kz*dis)*exp((j*(m-1)*Kx*cos(4*pi/6)+Ky*sin(4*pi/6))*d5));
angle2(q)=AF11(q)+AF21(q)+AF31(q)+AF41(q)+AF51(q)+AF61(q);
for t=1:M
G(t)=exp(j*angle2(q)*(t-1));
end;
beamu1(q)=abs(wu(1,:)*G');
end;
% figure(1);clf;
% polar(-90*pi/180:1*pi/180:90*pi/180,beamu1);
% hold on;
%
% view(90,-90);
% grid on;
% zoom on;
figure(2);clf;
th=-90:1:90;
plot(th,beamu1,'LineWidth',1);
grid on;
title('Linear Plot Pattern of First Signal-1st DOA');
0 Commenti
Risposte (0)
Vedere anche
Categorie
Scopri di più su General Physics in Help Center e File Exchange
Prodotti
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
Puoi anche selezionare un sito web dal seguente elenco:
Americhe
- América Latina (Español)
- Canada (English)
- United States (English)
Europa
- Belgium (English)
- Denmark (English)
- Deutschland (Deutsch)
- España (Español)
- Finland (English)
- France (Français)
- Ireland (English)
- Italia (Italiano)
- Luxembourg (English)
- Netherlands (English)
- Norway (English)
- Österreich (Deutsch)
- Portugal (English)
- Sweden (English)
- Switzerland
- United Kingdom (English)
Asia-Pacifico
- Australia (English)
- India (English)
- New Zealand (English)
- 中国
- 日本Japanese (日本語)
- 한국Korean (한국어)