Difference between revisions of "Scenario 4 code"
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(Created page with "= Scenario 4 code = == Main == <pre> function [r1,r2,r3,r4,r5] = Scenario4(dist) model = 4; dist_m = dist*1000; freq = 2100; tx_ht = 150; rx_ht = 1.5; PT = 25; GR = 2; GT = 14; ...") |
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Latest revision as of 14:00, 6 December 2012
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Scenario 4 code
Main
function [r1,r2,r3,r4,r5] = Scenario4(dist) model = 4; dist_m = dist*1000; freq = 2100; tx_ht = 150; rx_ht = 1.5; PT = 25; GR = 2; GT = 14; [x1,y1] = pathloss_orig(dist, freq, tx_ht, rx_ht, model); x1=x1*1000; y1 = y1+(PT+GR+GT); RS1 = Srdb(200, 4, 293.15, 3, 12.2); fade1 = fading_margin(0.95, freq); noise1 = RS1 + fade1; noise1Plot(1:(dist_m+1)) = noise1; RS1Plot(1:(dist_m+1)) = RS1; plot(x1, y1, 'g-'); hold on; plot(x1-1000, fliplr(y1), 'k-'); plot(0:dist_m, noise1Plot, 'r-'); plot(0:dist_m, RS1Plot, 'b-'); [i1,i2] = intersections(x1,y1,0:dist_m,noise1Plot,1); plot(i1,i2, 'r-*'); [i3,i4] = intersections(x1-1000,fliplr(y1),0:dist_m,noise1Plot,1); plot(i3,i4, 'r-*'); hold off; set(gca,'XTick',0:1000:dist_m) r1 = i1; r2 = i2; r3 = dist_m-i3; r4 = i4; r5 = i1-i3; if(model==1) title('Propagation prediction - Freespace'); % 1: FreeSpace elseif(model==2) title('Propagation prediction - Okumura'); % 2: Okumura elseif(model==3) title('Propagation prediction - Hata Urban'); % 3: Hata Urban elseif(model==4) title('Propagation prediction - Hata Suburban'); % 4: Hata Suburban elseif(model==5) title('Propagation prediction - Hata Open'); % 5: Hata Open elseif(model==6) title('Propagation prediction - Lee Philadelphia'); % 6: Hata Urban elseif(model==7) title('Propagation prediction - Lee Newark'); % 7: Hata Urban elseif(model==8) title('Propagation prediction - Lee Tokyo'); % 8: Hata Urban elseif(model==9) title('Propagation prediction - ETSI'); % 9: Hata Urban end xlabel('Distance (m)'); ylabel('Signal strength (dB)'); legend('UMTS2100','UMTS2100','Fading Margin UMTS','Receiver Sensitivty UMTS'); end
Modified pathloss
function [ Dist, PathLoss ] = pathloss_orig(distance, freq, txh, rxh, model) Dist=1:0.01:distance; % Distance Dist_Km=Dist; % Distance in km Dist_m=Dist*1000; % Distance in meters Dist_Log_Km=log10(Dist_Km); % Distance in Log Scale (for km) Dist_Log_Meter=log10(Dist_m); % Distance in Log Scale (for meters) Freq=freq; % Frequence c=3*1e8; % Speed of light lamda=c/(Freq*1e6); % Lamda, Wavelength TX_Ht=txh; % Height of transmit antenna RX_Ht=rxh; % Height of receive antenna % Free Space Model (Urban) FreeSpace=10*log10((Dist_m*pi*4).^2/lamda^2); % Okumura Model (Urban) Lf = FreeSpace; % Free Space Propagation Loss Amu = 35; % Median Attenuation Relative to Free Space (900 MHz and 30 Km) Garea = 9; % Gain due to the Type of Environment (Suburban Area) Ghte = 20*log(TX_Ht/200); % Base Station Antenna Height Gain Factor if(RX_Ht>3) Ghre = 20*log(RX_Ht/3); else Ghre = 10*log(RX_Ht/3); end Okumura=Lf+Amu-Ghte-Ghre-Garea; % Hata Model PAR_H=3.2*((log10(11.75*RX_Ht))^2)-4.97; Hata_Urban=69.55+26.16*log10(Freq)-13.82*log10(TX_Ht)-PAR_H+((44.9-6.55*log10(TX_Ht)))*(Dist_Log_Km); Hata_Suburban=Hata_Urban-((2*(log10(Freq/28))^2)-5.4); Hata_Open=Hata_Urban-((4.78*(log10(Freq))^2)+(18.33*log10(Freq))-40.94); % Lee's Urban Model for Philadenphia, Newark and Tokyo ALPH1=(TX_Ht/30.48)^2; % F1 ALPH2=10^(6/40); % F2: Base Station antenna gain is 6/4 dB corresponding to 10^(6/40) actual value if(RX_Ht>3) ALPH3=(RX_Ht/3)^2; % F3 else ALPH3=(RX_Ht/3); % F3 end ALPH4=1; % F4: (freq/900)^-n # Assuming 900MHz ALPH5=0.25; % F5: alpha5=-6dB corresponding to 0.25 actual value ALPH0=ALPH1*ALPH2*ALPH3*ALPH4*ALPH5; Lee_Philadenphia=108.49+36.8*(log10(Dist_Km))-10*log10(ALPH0); Lee_Newark=101.20+43.1*(log10(Dist_Km))-10*log10(ALPH0); Lee_Tokyo=123.77+30.5*(log10(Dist_Km))-10*log10(ALPH0); % ETSI vehicular % Lvehicular = 40 ( 1-4*10^-3 TXH ) log r - 18 log TXH + 21 log f + 80 ETSI=40*(1-4*(10^-3)*TX_Ht)*(Dist_Log_Km)-(18*Dist_Log_Km)+(21*log10(Freq)+80); PathLoss=0; if(model==1) PathLoss=-FreeSpace; % 1: FreeSpace elseif(model==2) PathLoss=-Okumura; % 2: Okumura elseif(model==3) PathLoss=-Hata_Urban; % 3: Hata Urban elseif(model==4) PathLoss=-Hata_Suburban; % 4: Hata Suburban elseif(model==5) PathLoss=-Hata_Open; % 5: Hata Open elseif(model==6) PathLoss=-Lee_Philadenphia; % 6: Hata Urban elseif(model==7) PathLoss=-Lee_Newark; % 7: Hata Urban elseif(model==8) PathLoss=-Lee_Tokyo; % 8: Hata Urban elseif(model==9) PathLoss=-ETSI; % 9: Hata Urban else PathLoss=PathLoss; % BLABLA end end