How can i stop the neural network after just one iteration ?
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Mariem Harmassi
am 30 Aug. 2012
Kommentiert: Joakim Lindblad
am 9 Mär. 2018
Hi i am a master student and i am developping a matlab code for evolutionary neural network so the training algorithm is done with a genetic algoritm and i dont need to train my neural network with any training function available ,that's why i set the epochs to 1 . This is the code
net=NEWFF(minmax(trainInput'),[hn,1],{'tansig','purelin'},'traingd');
net.trainParam.show = NaN;
net.trainParam.lr = 0.05;
net.trainParam.mc = 0.1;
net.trainParam.epochs = 1;
net.trainParam.goal = 1e-2;
[net,tr]=train(net,trainInput',trainOutput');
I need a function which can stop the neural network after just one iteration that s mean i don t want the neural network to calculate a new weights and ierates .Dis This partial code realize this ?
closeloop is it useful ?
1 Kommentar
Joakim Lindblad
am 9 Mär. 2018
Guess I'm not the only one ending up on this ancient question...
To stop after one iteration, use an output function which returns true:
'OutputFcn',@(varargin) true
This can be useful to do, e.g., after resuming from a checkpoint.
If you know how to stop after zero iterations, plz post.
Akzeptierte Antwort
Greg Heath
am 1 Sep. 2012
Bearbeitet: Greg Heath
am 1 Sep. 2012
To design an I-H-O feedforward multilayer perceptron (with H hidden nodes) using Ntrn input/target training pairs with dimensions I and O, respectively,
1. Create the input and target matrices Xtrn and Ttrn with dimensions
[ I Ntrn ] = size(Xtrn)
[ O Ntrn [ = size(Ttrn)
2. Standardize ( help mapstd, help zscore) the columns to have zero mean and unit variance. The resulting matrices are xtrn and ttrn.
3. This data will generate
Neq = Ntrn*O
training equations which will be used to obtain
Nw = (I+1)*H+(H+1)*O
unknown weights (including H+O bias weights).
4. Although
H <= Hub = (Neq-O)/(I+O+1)
insures that
Neq >= Nw,
the stronger condition
H << Hub
is preferred in order to mitigate noise, measurement error and insufficient sampling variety.
5. The weights and biases are typically stored in matrices IW, b1, LW and b2 with sizes
[ H I ] = size(IW)
[ H 1 ] = size(b1)
[ O H ] = size(LW)
[ O 1 ] = size(b2).
6. For an arbitrary input x, the hidden node and output signals are given by
h = tanh( IW * x + b1 );
y = LW * h + b2;
7. When the input xtrn yields the output ytrn, the corresponding error is
etrn = ttrn-ytrn;
8. The corresponding degree-of-freedom adjusted mean-square error is
MSEtrna = sum( etrn(:).^2 ) / (Neq-Nw)
9. A reasonable design objective is to choose (H,IW,b1,LW,b2) to minimize MSEtrna.
10. I would use the genetic algorithm to find the weights given an integer value for H that satisfies H < Hub (or better yet, H << Hub).
11. Notice that no functions from the NN Toolbox are necessary.
Hope this helps.
Greg
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Greg Heath
am 31 Aug. 2012
Bearbeitet: Walter Roberson
am 1 Sep. 2012
>Hi i am a master student and i am developping a matlab code for evolutionary
>neural network so the training algorithm is done with a genetic algoritm and i
>dont need to train my neural network with any training function available ,that's
>why i set the epochs to 1.
Since you are not going to use any of the Toolbox training functions, do not use the function train and don't initialize any of it's parameters
This is your code
net=NEWFF(minmax(trainInput'),[hn,1], 'tansig','purelin'},'traingd');
Erroneously capitalized newff, omitted a left brace and initialized a training algorithm that won't be used.
If you are going to use a genetic algorithm you should not use TRAIN. Therefore, it makes no sense to initialize training parameters.
Once input and target matrices are normalized and edited, the only NNET TBX functions needed are net.IW, net.LW, net.b, sim and mse.
I recommend starting with a a general genetic algorithm outline. Then determine where the NN creation, weight updating and simulation commands should be placed.
It might be worthwhile to search online, including the archives of comp.ai.neural-nets and comp.soft-sys.matlab for sample code.
Hope this helps.
Greg
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Mariem Harmassi
am 1 Sep. 2012
3 Kommentare
Greg Heath
am 1 Sep. 2012
You appear to be very confused. I suggest the following:
1. Try to duplicatethe results from demos and/or examples in the NN Toolbox. 2. Check out some of my posted code via the search words
heath newff close clear
Do not attempt a genetic solution until you understand these basics.
Hope this helps.
Greg
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