Sim() error in MATLAB app designer

1 vue (au cours des 30 derniers jours)
Farhan Baig
Farhan Baig le 8 Nov 2022
I'm having an error while creating an app on app designer. The net.mat file was loaded into var and was accessed in y=sim(app.var,p). as shown:
classdef FAM < matlab.apps.AppBase
% Properties that correspond to app components
properties (Access = public)
UIFigure matlab.ui.Figure
DiabeticRetinopathyDetectionLabel matlab.ui.control.Label
DevelopedbyFarhanHamzaLabel matlab.ui.control.Label
LoadimageButton matlab.ui.control.Button
UIAxes matlab.ui.control.UIAxes
UIAxes2 matlab.ui.control.UIAxes
UIAxes3 matlab.ui.control.UIAxes
VesselsButton matlab.ui.control.Button
ExudatesButton matlab.ui.control.Button
end
properties (Access = public)
var = load('F:\Study\BME BOOKS\Semester 7\imaging\project2\Diabetic-Retinopathy-Detection-master\net.mat'); % specify the path to mat file
end
methods (Access = private)
% Button pushed function: LoadimageButton
function loadimage(app, event)
global data;
[FileName,PathName] = uigetfile('*.png;','select the image'); %reading the specifies types of the image
dat=imread([PathName,FileName]);
data=imresize(dat,[500 700]); %reesizing the image into 500 700
imshow(data,'Parent',app.UIAxes);
end
% Button pushed function: VesselsButton
function VesselsButtonPushed(app, event)
global data;
global bw2;
global c;
global mea2;
global sd1;
global numberOfCircles;
greenchannel = data(:,:,2); % green channel of the image
ginverse = imcomplement (greenchannel); % complementing green channel
adahisteq = adapthisteq(ginverse); %increasing the intensity of the inverse green channel for highlitening the blood vessel
threshold = 0.2;
BW = edge(adahisteq,'Canny',threshold); %canny detection
h=imfill(BW,'holes'); % filling the holes
k=h-BW;
BW2 = bwpropfilt(logical(k),'Area',[7 12]); %taking out the clustered pixels of the specified range area
[l,numberOfCircles]= bwlabel(BW2); % counting the number of clustered pixels
%extraction of blood vessel and haemorrhages
greenc = data(:,:,2); % Extract Green Channel
ginv = imcomplement (greenc); % Complement the Green Channel
adahist = adapthisteq(ginv);
se = strel('ball',8,8); % Structuring Element
gopen = imopen(adahist,se); % Morphological Open
godisk = adahist - gopen; % Remove Optic Disk
medfilt = medfilt2(godisk); %2D Median Filter
background = imopen(medfilt,strel('disk',15));% imopen function
I2 = medfilt - background; % Remove Background
I3 = imadjust(I2); % Image Adjustment
level = graythresh(I3); % Gray Threshold
bw = im2bw(I3,level); % Binarization
bw1 = bwareaopen(bw, 30);
[i,j]= size(bw1);
c=0;
for i=1:500
for j=1:700
if bw1(i,j)==1
c=c+1;
end
end
end
imshow(bw1,'Parent',app.UIAxes2);
bw2=im2bw(bw1); %#ok<*IM2BW>
mea2=mean2(bw2);
sd1=std2(bw2);
end
% Button pushed function: ExudatesButton
function ExudatesButtonPushed(app, event)
global data;
global mea2;
global sd1;
global c;
global numberOfCircles;
%global net;
g=data(:,:,2);
a=adapthisteq(g);
im= imadjust(a);
im2=im2bw(im,.9);
med=medfilt2(im2);
im3=imerode(med,strel('disk',10));
im4=imdilate(im3,strel('octagon',63));
im5=imimposemin(g,im4);
im6=g-im5;
im8=adapthisteq(im6);
im9=im2bw(im8);
med1=medfilt2(im9);
im10=imdilate(med1,strel('disk',40));
im12=med-im10;
im13=im2bw(im12);
BW2 = bwpropfilt(logical(im13),'Area',[0 1000]);
[k,l]= size(BW2);
c1=0;
for k=1:500
for l=1:700
if im12(k,l)==1
c1=c1+1;
end
end
end
imshow(BW2,'Parent',app.UIAxes3);
mea1=mean2(BW2);
sd2=std2(BW2);
p=[c;c1;numberOfCircles;mea2;sd1;mea1;sd2]; % seven iput features
y=sim('app.var',p); %estimted
o=round(y);
a1=[0 0 0 1]; % target values of the class 1
a2=[0 0 1 0]; % target values of the class 2
a3=[0 1 0 0]; % target values of the class 3
a4=[1 0 0 0]; % target values of the class 4
a11=a1.';
a22=a2.'; %Transpose
a33=a3.';
a44=a4.';
if o == a11
%disp('Normal eye');
fig1 = uifigure;
message1 = {'Normal eye'};
uialert(fig1,message1,'Sucess',...
'Icon','Success');
else if o== a22
%disp('Mild nonproliferative retinopathy');
fig2 = uifigure;
message2 = {'Mild nonproliferative retinopathy'};
uialert(fig2,message2,'Sucess',...
'Icon','Success');
else if o==a33
% disp('moderate nonproliferative retinopathy');
fig3 = uifigure;
message3 = {'moderate nonproliferative retinopathy'};
uialert(fig3,message3,'Sucess',...
'Icon','Success');
else
% disp('severe npdr');
fig4 = uifigure;
message4 = {'severe npdr'};
uialert(fig4,message4,'Sucess',...
'Icon','Success');
end
end
end
end
end
% App initialization and construction
methods (Access = private)
% Create UIFigure and components
function createComponents(app)
% Create UIFigure
app.UIFigure = uifigure;
app.UIFigure.Position = [100 100 640 480];
app.UIFigure.Name = 'UI Figure';
% Create DiabeticRetinopathyDetectionLabel
app.DiabeticRetinopathyDetectionLabel = uilabel(app.UIFigure);
app.DiabeticRetinopathyDetectionLabel.HorizontalAlignment = 'center';
app.DiabeticRetinopathyDetectionLabel.FontSize = 20;
app.DiabeticRetinopathyDetectionLabel.FontWeight = 'bold';
app.DiabeticRetinopathyDetectionLabel.Position = [168 425 305 34];
app.DiabeticRetinopathyDetectionLabel.Text = 'Diabetic Retinopathy Detection';
% Create DevelopedbyFarhanHamzaLabel
app.DevelopedbyFarhanHamzaLabel = uilabel(app.UIFigure);
app.DevelopedbyFarhanHamzaLabel.HorizontalAlignment = 'center';
app.DevelopedbyFarhanHamzaLabel.FontWeight = 'bold';
app.DevelopedbyFarhanHamzaLabel.Position = [230 404 181 22];
app.DevelopedbyFarhanHamzaLabel.Text = 'Developed by Farhan & Hamza';
% Create LoadimageButton
app.LoadimageButton = uibutton(app.UIFigure, 'push');
app.LoadimageButton.ButtonPushedFcn = createCallbackFcn(app, @loadimage, true);
app.LoadimageButton.BackgroundColor = [0.302 0.749 0.9294];
app.LoadimageButton.FontWeight = 'bold';
app.LoadimageButton.Position = [55 372 100 22];
app.LoadimageButton.Text = 'Load image';
% Create UIAxes
app.UIAxes = uiaxes(app.UIFigure);
title(app.UIAxes, 'Orignal image')
app.UIAxes.Position = [198 203 301 191];
% Create UIAxes2
app.UIAxes2 = uiaxes(app.UIFigure);
title(app.UIAxes2, 'Vessels and Microaneuryms')
app.UIAxes2.Position = [15 13 286 191];
% Create UIAxes3
app.UIAxes3 = uiaxes(app.UIFigure);
title(app.UIAxes3, 'Exudates')
app.UIAxes3.Position = [326 19 300 185];
% Create VesselsButton
app.VesselsButton = uibutton(app.UIFigure, 'push');
app.VesselsButton.ButtonPushedFcn = createCallbackFcn(app, @VesselsButtonPushed, true);
app.VesselsButton.Position = [55 319 100 22];
app.VesselsButton.Text = 'Vessels';
% Create ExudatesButton
app.ExudatesButton = uibutton(app.UIFigure, 'push');
app.ExudatesButton.ButtonPushedFcn = createCallbackFcn(app, @ExudatesButtonPushed, true);
app.ExudatesButton.Position = [55 264 100 22];
app.ExudatesButton.Text = 'Exudates';
end
end
methods (Access = public)
% Construct app
function app = FAM
% Create and configure components
createComponents(app)
% Register the app with App Designer
registerApp(app, app.UIFigure)
if nargout == 0
clear app
end
end
% Code that executes before app deletion
function delete(app)
% Delete UIFigure when app is deleted
delete(app.UIFigure)
end
end
end
But I'm having this error:

Réponses (2)

Kojiro Saito
Kojiro Saito le 9 Nov 2022
You need to input app.var without single quotations.
If you have saved your trained model (variable net),
save('net.mat', "net")
a
y=sim('app.var',p); %estimted
should be
y = sim(app.var.net, p); %estimted

Steven Lord
Steven Lord le 9 Nov 2022
y=sim('app.var',p); %estimted
This tries to call a version of the sim function that accepts a char vector as the first input. That's not what I believe you want. Determine the variable in the MAT-file that contains the object you want to simulate (I'll assume it's called theNet) and index into that variable stored in the property of your app.
y = sim(app.var.theNet, p);

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