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plotEnergyAccuracyTOForFixedSNRComparison.m
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251 lines (230 loc) · 12.8 KB
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clear all;
close all;
disp("Energy vs Accuracy Plotting");
disp("1 - Plot Virtual Queues for Fixed SNR strategy");
disp("2 - Plot Virtual Queues for Dynamic SNR Strategy");
disp("3 - Plot Energy vs Accuracy");
disp("4 - Plot Energy Loss for best SNR and Full Local");
disp("5 - Plot comparison Fixed SNR/Fixed SP");
type = input("Choose: ");
pl_array = [115,120,125];
snr_array = {["SNRNeg5","SNRNeg4","SNRNeg3","SNRNeg2","SNR0","SNR5","SNR10","SNR20"];
["SNRNeg5","SNRNeg4","SNRNeg3","SNRNeg2","SNR0","SNR5","SNR10","SNR20"];
["SNRNeg5","SNRNeg4","SNRNeg3","SNRNeg2","SNR0","SNR5","SNR10","SNR20"]};
%snr_array = ["SNRNeg5","SNRNeg4","SNRNeg3","SNRNeg2","SNR0","SNR5","SNR10","SNR20"]
snr_num = ["-5","-4","-3","-2","0","5","10","20"];
best_snr = ["SNRNeg2","SNRNeg2","SNRNeg2","SNR0"]
g_avg_array = [70,75,80,85];
v_array = 1e8*ones(1,numel(g_avg_array));
trans_end = [8000,8000,8000];
sp_array = {[4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,20];
[7,8,9,10,11,12,13,14,15,16,17,18,20];
[7,8,9,10,11,12,13,14,15,16,17,18,20]};
root = "./SNRComparisonFixed";
dynamic_root ="./SplittingPointComparison";
fixed_sp_dir = "./SplittingPointComparisonFixed";
%no_opt_acc_root = "./NoOptAcc";
color_array = ["#0072BD","#D95319","#EDB120"]
switch type
case 1
for p=1:numel(pl_array)
for s=1:numel(snr_array{p})
for g=1:numel(g_avg_array)
path = strcat(root,"/PathLoss",num2str(pl_array(p)),"/",num2str(snr_array{p}(s)),"/Acc",num2str(g_avg_array(g)),"/");
virtualQueuesPlotting(path,v_array(g));
end
end
end
case 2
for p=1:numel(pl_array)
for g=1:numel(g_avg_array)
path = strcat(dynamic_root,"/PathLoss",num2str(pl_array(p)),"/Acc",num2str(g_avg_array(g)),"/");
virtualQueuesPlotting(path,v_array(g));
end
end
case 3
energy_opt_axis = zeros(1,numel(g_avg_array));
accuracy_axis = zeros(1,numel(g_avg_array));
accuracy_opt_axis = zeros(1,numel(g_avg_array));
try
for p=1:numel(pl_array)
for g=1:numel(g_avg_array)
path = strcat(dynamic_root,"/PathLoss",num2str(pl_array(p)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(g)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
etot = tx_energy+computation_energy;
energy_opt_axis(g) = etot;
accuracy_opt_axis(g) = mean(simulation.accuracyArray(trans_end(1):end));
end
%semilogy(accuracy_axis*100,energy_axis,'LineWidth',1.5,'marker','hexagram','DisplayName','Best SNR');
hold on;
end
catch
disp(strcat(root," not found..."));
end
energy_axis = zeros(1,numel(g_avg_array));
for p=1:numel(pl_array)
for s=1:numel(snr_array{p})
for g=1:numel(g_avg_array)
%Computing the energy consumption for the best fixed P
path = strcat(root,"/PathLoss",num2str(pl_array(p)),"/",num2str(snr_array{p}(s)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(1)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
Estar = tx_energy+computation_energy;
energy_axis(g) = (Estar-energy_opt_axis(g))/Estar;
accuracy_axis(g) = mean(simulation.accuracyArray(trans_end(1):end));
end
plot(accuracy_opt_axis*100,energy_axis,'LineWidth',1.5,'marker','hexagram','DisplayName',strcat(snr_num(s), " dB"),'LineStyle','--');
hold on;
end
end
grid on;
l = legend('Location','best','Fontsize',12);
set(l,'Interpreter','latex');
xlabel('Accuracy [%]','FontSize',14);
ylabel('Energy [J]','FontSize',14);
case 4
energy_axis = zeros(numel(g_avg_array),numel(pl_array));
full_energy_axis = zeros(1,numel(g_avg_array));
accuracy_axis = zeros(1,numel(g_avg_array));
for p=1:numel(pl_array)
for g=1:numel(g_avg_array)
Ebest=inf;
Etot = zeros(1,numel(pl_array));
best = 1;
for s=1:numel(snr_array{p})
%Computing the energy consumption for the best fixed P
path = strcat(root,"/PathLoss",num2str(pl_array(p)),"/",num2str(snr_array{p}(s)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(1)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
Estar = tx_energy+computation_energy;
if Estar<Ebest
Ebest=Estar;
best = snr_array{p}(s);
end
end
path = strcat(dynamic_root,"/PathLoss",num2str(pl_array(p)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(g)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
etot = tx_energy+computation_energy;
energy_axis(g,p) = (Ebest-etot)/Ebest;
accuracy_axis(g) = mean(simulation.accuracyArray(trans_end(1):end));
end
end
for p=1:numel(pl_array)
for g=1:numel(g_avg_array)
Ebest=inf;
Etot = zeros(1,numel(pl_array));
best = 1;
%Computing the energy consumption for the best fixed P
path = strcat(root,"/PathLoss",num2str(pl_array(p)),"/SP20","/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(1)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
Efull = tx_energy+computation_energy;
path = strcat(dynamic_root,"/PathLoss",num2str(pl_array(p)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(g)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
etot = tx_energy+computation_energy;
full_energy_axis(g,p) = (Efull-etot)/Efull;
accuracy_axis(g) = mean(simulation.accuracyArray(trans_end(1):end));
end
end
bar([70,75,80,85],[energy_axis]*100);
legend(["PL = 90 dB","PL = 95 dB","PL = 100 dB"])
hold on;
grid on;
l = legend('Location','best','Fontsize',10);
set(l,'Interpreter','latex');
xlabel('Accuracy [%]','FontSize',14);
ylabel('Energy Expenditure Reduction [%]','FontSize',14);
case 5
energy_axis = zeros(1,numel(g_avg_array));
energy_axis_full = zeros(1,numel(g_avg_array));
accuracy_axis = zeros(1,numel(g_avg_array));
accuracy_axis_full_local = zeros(1,numel(g_avg_array));
try
for p=1:numel(pl_array)
for g=1:numel(g_avg_array)
Ebest=inf;
for s=1:numel(sp_array{p})
%Computing the energy consumption for the best fixed P
path = strcat(fixed_sp_dir,"/PathLoss",num2str(pl_array(p)),"/","SP",num2str(sp_array{p}(s)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(1)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
Estar = tx_energy+computation_energy;
if Estar<Ebest
Ebest=Estar;
end
end
%Computing the energy consumption for the full
%offloading
path = strcat(fixed_sp_dir,"/PathLoss",num2str(pl_array(p)),"/","SP","20","/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(1)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
Efull = tx_energy+computation_energy;
accuracy_axis_full_local(g)= mean(simulation.accuracyArray(trans_end(1):end));
path = strcat(dynamic_root,"/PathLoss",num2str(pl_array(p)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(g)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
etot = tx_energy+computation_energy;
energy_axis(g) = (Ebest-(etot))/Ebest;
energy_axis_full(g) = (Efull-(etot))/Efull;
accuracy_axis(g) = mean(simulation.accuracyArray(trans_end(1):end));
end
plot(accuracy_axis*100,energy_axis*100,'LineWidth',1.5,'marker','o','DisplayName',strcat('PL=',num2str(pl_array(p)),' dB'),'Color',color_array(p),'LineStyle','--');
hold on;
plot(accuracy_axis*100,energy_axis_full*100,'LineWidth',1.5,'marker','o','DisplayName',strcat("$k_{20}$ PL=",num2str(pl_array(p))),'Color',color_array(p),'LineStyle','-','HandleVisibility','off');
hold on;
end
catch exception
disp(exception.message);
end
energy_axis = zeros(1,numel(g_avg_array));
full_energy_axis = zeros(1,numel(g_avg_array));
accuracy_axis = zeros(1,numel(g_avg_array));
energy_axis_no_accuracy = zeros(1,numel(g_avg_array));
accuracy_axis_no_accuracy = zeros(1,numel(g_avg_array));
for p=1:numel(pl_array)
for g=1:numel(g_avg_array)
Ebest=inf;
Etot = zeros(1,numel(pl_array));
best = 1;
for s=1:numel(snr_array{p})
%Computing the energy consumption for the best fixed P
path = strcat(root,"/PathLoss",num2str(pl_array(p)),"/",num2str(snr_array{p}(s)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(1)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
Estar = tx_energy+computation_energy;
if Estar<Ebest
Ebest=Estar;
best = snr_array{p}(s);
end
end
path = strcat(dynamic_root,"/PathLoss",num2str(pl_array(p)),"/Acc",num2str(g_avg_array(g)),"/");
load(strcat(path,'simulation',num2str(v_array(g)),".mat"),'simulation');
computation_energy = mean(simulation.computationalEnergyArray(trans_end(1):end));
tx_energy = mean(simulation.transmissionEnergyArray(trans_end(1):end));
etot = tx_energy+computation_energy;
energy_axis(g) = (Ebest-(etot))/Ebest;
accuracy_axis(g) = mean(simulation.accuracyArray(trans_end(1):end));
end
plot(accuracy_axis*100,energy_axis*100,'LineWidth',1.5,'marker','o','HandleVisibility','off','Color',color_array(p),'LineStyle',':')
hold on;
end
hold on;
grid on;
l = legend('Location','best','Fontsize',12);
set(l,'Interpreter','latex');
xlabel('Accuracy Loss [%]','FontSize',14);
ylabel('Energy Expenditure Reduction [%]','FontSize',14);
end