NARX for Multi Input Multi Output system Identification
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Hello, Can anyone please help how to use NARX method from the Neural Networks Tool box to perform system identification for a system that has Multi inputs Multi Outputs.Thanks.
Respuesta aceptada
Greg Heath
el 10 de Mzo. de 2013
1 voto
1. Write and test your code assuming SISO
2. Convert to MIMO and test
3. If you have problems or questions, post relevant code and error messsages
Hope this helps.
Thank you for formally accepting my answer
Greg
2 comentarios
Karima
el 10 de Mzo. de 2013
Greg Heath
el 10 de Mzo. de 2013
The sizes of the input and target matrices are
[ I N ] = size(x) % [ 3 N ]
[ O N ] = size(t) % [ 2 N ]
Más respuestas (2)
Ahmed Hakim
el 1 de Abr. de 2013
0 votos
Hello GUYS
I have the same problem
I have a model of DC motor which has two inputs (the Voltage and the Load torque) and output DC motor speed
Now I would like to identify this DC motor model with its two inputs using neural network to mimic this Motor Model
The idea is that when I change in the load torque as a disturbance the whole output of the DCM being controlled by PID is changed
So I suggested to make online identification for the DC Motor, so that when there is a disturbance change, the Neural network will identify the new MODEL and then a new design for PID will be according to this new model by Neural network
1 comentario
Ahmed Hakim
el 1 de Abr. de 2013
How can I make a system identification using Neural Network for a system with Two Inputs and One output
fabian
el 24 de Jun. de 2013
0 votos
I need to make the identification of a MISO system with NARX neural network. I have the following code someone can collaborate. thanks
load datoshistoricos.txt;
datoshistoricos;
u=datoshistoricos(:,1:2:3:4)';
y=datoshistoricos(:,5)';
[u,us] = mapminmax(u);
[y,ys] = mapminmax(y);
y = con2seq(y);
u = con2seq(u,587);
d1 = [1:2];
d2 = [1:2];
S1 = 20;
narx_net = narxnet(d1,d2,S1);
narx_net.divideFcn = '';
narx_net.inputs{1}.processFcns = {};
narx_net.inputs{2}.processFcns = {};
narx_net.outputs{2}.processFcns = {};
narx_net.trainParam.min_grad = 1e-10;
[p,Pi,Ai,t] = preparets(narx_net,u,{},y);
narx_net = train(narx_net,p,t,Pi);
narx_net_closed = closeloop(narx_net);
view(narx_net_closed)
mrac_net = feedforwardnet([S1 1 S1]);
mrac_net.layerConnect = [0 1 0 1;1 0 0 0;0 1 0 1;0 0 1 0];
mrac_net.outputs{4}.feedbackMode = 'closed';
mrac_net.layers{2}.transferFcn = 'purelin';
mrac_net.layerWeights{3,4}.delays = 1:2;
mrac_net.layerWeights{3,2}.delays = 1:2;
mrac_net.layerWeights{3,2}.learn = 0;
mrac_net.layerWeights{3,4}.learn = 0;
mrac_net.layerWeights{4,3}.learn = 0;
mrac_net.biases{3}.learn = 0;
mrac_net.biases{4}.learn = 0;
mrac_net.divideFcn = '';
mrac_net.inputs{1}.processFcns = {};
mrac_net.outputs{4}.processFcns = {};
mrac_net.name = 'Model Reference Adaptive Control Network';
mrac_net.layerWeights{1,2}.delays = 1:2;
mrac_net.layerWeights{1,4}.delays = 1:2;
mrac_net.inputWeights{1}.delays = 1:2;
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