Neural Network - inverted pre-processing functions

3 visualizaciones (últimos 30 días)
Emiliano Rosso
Emiliano Rosso el 24 de Nov. de 2015
Comentada: Emiliano Rosso el 25 de Nov. de 2015
I know that using preprocessing functions have to transform the output of the neural network to their original values using:
P = inputs;
t = targets;
[pn, Mins, maxp, tn, mint, maxt] = premnmx (p, t);
net = train (net, pn, tn);
an = sim (net, pn);
postmnmx a = (an, mint, maxt);
I would like to know if using fitnet with new preprocessing functions integrated into the neural network ('mapminmax', 'processpca', 'mapstd') for the training and calculating the output of a new data set using:
newoutputs = net (newinputs);
I still have to convert and reconvert the new data or the transformation is performed automatically.
Is there any difference if I use:
new outputs = net (newinputs);
instead of:
newoutputs = sim (net, newinputs);
?
Thank you!

Iniciar sesión para responder a esta pregunta.

Respuesta aceptada

Greg Heath
Greg Heath el 25 de Nov. de 2015
Editada: Greg Heath el 25 de Nov. de 2015
Why are you wasting time on a question that you can answer yourself by simply running the example in
help fitnet
To better answer your problem add
max(abs(t-y))
Hope this helps.
Greg
  1 comentario
Emiliano Rosso
Emiliano Rosso el 25 de Nov. de 2015
SOLVED
clear all
clearvars -global
inputs=[1,2,4,3,5;8,3,5,4,3];
targets=[1,0,0,1,1];
pnew=[1,4,3;1,6,5];
net=fitnet(1);
net.inputs{1}.processFcns = {};
net.outputs{2}.processFcns = {};
[pn,meanp,stdp,tn,meant,stdt] = prestd(inputs,targets);
net=train(net,pn,tn);
an = sim(net,pn);
output1 = poststd(an,meant,stdt);
pnewn = trastd(pnew,meanp,stdp);
anewn = sim(net,pnewn);
output1_new = poststd(anewn,meant,stdt);
my_weights = getx(net);
save('output1');
save('output1_new');
save('my_weights');
clear all
clearvars -global
load('output1','output1');
load('output1_new','output1_new');
load('my_weights','my_weights');
inputs=[1,2,4,3,5;8,3,5,4,3];
targets=[1,0,0,1,1];
pnew=[1,4,3;1,6,5];
net=fitnet(1);
net.inputs{1}.processFcns = {};
net.outputs{2}.processFcns = {};
net.inputs{1}.processFcns = {'mapstd'};
net.outputs{2}.processFcns = {'mapstd'};
net=train(net,inputs,targets);
net = setx(net,my_weights);
output2=net(inputs);
output2_new=net(pnew);
save('output2');
save('output2_new');
clear all;
clearvars -global;
load('output1','output1');
load('output1_new','output1_new');
load('my_weights','my_weights');
load('output2','output2');
load('output2_new','output2_new');
if isequal(output1,output2)==1
disp('output1 is equal to output2');
else
disp('output1 is NOT equal to output2');
end
if isequal(output1_new,output2_new)==1
disp('output1_new is equal to output2_new');
else
disp('output1_new is NOT equal to output2_new');
end
COMMAND WINDOW:
output1 is equal to output2
output1_new is equal to output2_new
getx & setx are used to use the same training.

Iniciar sesión para comentar.

Más respuestas (0)

Categorías

Más información sobre Sequence and Numeric Feature Data Workflows en Help Center y File Exchange.

Etiquetas

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by