Matlab code follows:
clear all;
close all;% create a COM server running OptiSystem
optsys = actxserver(‘optisystem.application’);% Section looks for OptiSystem process and waits for it to start
%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Execute the system command
taskToLookFor = ‘OptiSystemx64.exe’;
% Now make up the command line with the proper argument
% that will find only the process we are looking for.
commandLine = sprintf(‘tasklist /FI “IMAGENAME eq %s”‘, taskToLookFor);
% Now execute that command line and accept the result into “result”.
[status, result] = system(commandLine);
% Look for our program’s name in the result variable.
itIsRunning = strfind(lower(result), lower(taskToLookFor));
while isempty(itIsRunning)
% pause(0.1)
[status, result] = system(commandLine);
itIsRunning = strfind(lower(result), lower(taskToLookFor));
end
%%%%%%%%%%%%%%%%%%%%%%%%%% Open the OptiSystem file defined by the path
directory = strcat(pwd,’\Matlab Call OptiSystem.osd’);
optsys.Open(directory);% Specify and define the parameters that will be varied
ParameterName1 = ‘Power’;
SignalPower = -20:5:-10; %dBmParameterName2 = ‘Length’;
FiberLength = 5:5:15; %meters% Specify the results that will be transfered from OptiSystem
ResultName1 = ‘Max. Gain (dB)’;
ResultName2 = ‘Min. Noise Figure (dB)’;
ResultName3 = ‘Output : Max. OSNR (dB)’;Document = optsys.GetActiveDocument;
LayoutMngr = Document.GetLayoutMgr;
CurrentLyt = LayoutMngr.GetCurrentLayout;
Canvas = CurrentLyt.GetCurrentCanvas;% Specify the components that will have the parameters (results) transfered
Component1 = Canvas.GetComponentByName(‘CW Laser’);
Component2 = Canvas.GetComponentByName(‘EDFA’);
Visualizer1 = Canvas.GetComponentByName(‘Dual Port WDM Analyzer’);% vary the parameters, run OptiSystem project and get the results
for i = 1:length(SignalPower)
for k = 1:length(FiberLength)%Set component parameters
Component1.SetParameterValue( ParameterName1, SignalPower(i) );
Component2.SetParameterValue( ParameterName2, FiberLength(k) );%Calculate
Document.CalculateProject( true , true);%Acces visualizer results
Result1 = Visualizer1.GetResult( ResultName1 );
Result2 = Visualizer1.GetResult( ResultName2 );
Result3 = Visualizer1.GetResult( ResultName3 );Gain( (i-1)*length(FiberLength) + k ) = Result1.GetValue( 1 );
NF( (i-1)*length(FiberLength) + k ) = Result2.GetValue( 1 );
OSNR( (i-1)*length(FiberLength) + k ) = Result3.GetValue( 1 );
end
end%plot graphs
figure
subplot(3,1,1); plot(FiberLength,Gain(1:length(FiberLength)),FiberLength,Gain(length(FiberLength)+1:2*length(FiberLength)),FiberLength,Gain(2*length(FiberLength)+1:3*length(FiberLength)) )
title(‘Signal Gain’)
xlabel(‘Fiber length [m]’)
ylabel(‘Gain [dB]’)
subplot(3,1,2); plot(FiberLength,NF(1:length(FiberLength)),FiberLength,NF(length(FiberLength)+1:2*length(FiberLength)),FiberLength,NF(2*length(FiberLength)+1:3*length(FiberLength)) )
title(‘Noise Figure’)
xlabel(‘Fiber length [m]’)
ylabel(‘NF [dB]’)
subplot(3,1,3); plot(FiberLength,OSNR(1:length(FiberLength)),FiberLength,OSNR(length(FiberLength)+1:2*length(FiberLength)),FiberLength,OSNR(2*length(FiberLength)+1:3*length(FiberLength)) )
title(‘OSNR’)
xlabel(‘Fiber length [m]’)
ylabel(‘OSNR [dB]’)% close OptiSystem
optsys.Quit;