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I am trying to implement stochastic diagonal Levenberg-Marquardt method for Convolutional Neural Network in order to back propagate for learning weights. i am new in it, and quite confused in it, so I have few questions, i hope you may help me.

1) How can i calculate the second order derivative at output layer from the two outputs. As i in first order derivative i have to subtract output from desired output and multiply it with derivative of the output. But in second derivative how can i do that?

2) In MaxPooling layer of convolutional Neural Network, I select max value in 2x2 window, and multiply it with the weight, now Does i have to pass it through activation function or not?

Can some one give me explanation how to do it in opencv, or how with mathematical explanation or any reference which show the mathematics. thanks in advance.

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This is more related to math.stackexchange.com –  Marco A. Mar 29 '14 at 11:09
can you please explain what is your function, data, variables, what derivative (with relation to what variable) do you want to calculate? Then I can help you. –  AB_ Mar 29 '14 at 11:20

1 Answer 1

up vote 2 down vote accepted

If you have calculated Jacobian matrix already (the matrix of partial first order derivatives) then you can obtain an approximation of the Hessian (the matrix of partial second order derivatives) by multiplying J^T*J (if residuals are small).

You can calculate second derivative from two outputs: y and f(X) and Jacobian this way:

enter image description here

In other words Hessian approximation B is chosen to satisfy:

enter image description here

In this paper you can find more about it. Ananth Ranganathan: The Levenberg-Marquardt Algorithm

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Sorry for being late... Thanks for your reply. DO you mean the first order derivative is called Jacabion Matrix? If yes than yes i do have that. I am using sigmoidal function at output layer. So you mean Hessian is the Transpose multiplied by the original matrix. (My output is 2x1 Mat. [0,1] or [1,0] so do you mean that 2x1 is my Hessian Matrix) –  khan Mar 29 '14 at 14:05
any further info? –  khan Mar 29 '14 at 15:34
@khan Yes, Jacobian matrix is the matrix of first order partial derivatives, and Hessian is matrix of partial second order derivatives. These matrices are squared. –  AB_ Mar 29 '14 at 15:39
yes, J^T * J gives you good approximation of Hessian –  AB_ Mar 29 '14 at 16:09
@khan I will, you can also add "@theNameOfUser" to ping a user with a name theNameOfUser –  AB_ Mar 29 '14 at 23:28

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