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I am currently studying this paper (page 53), in which the suggest convolution to be done in a special manner.

This is the formula:

enter image description here

Here is their explanation:

As shown in Fig. 4.2, all input feature maps (assume I in total), O_i (i = 1, · · · , I) are mapped into a number of feature maps (assume J in total), Q_j (j = 1, · · · , J) in the convolution layers based on a number of local filters (I × J in total), w_{ij} (i = 1, · · · , I; j = 1, · · · , J). The mapping can be represented as the well-known convolution operation in signal processing. Assuming input feature maps are all one dimensional, each unit of one feature map in the convolution layer can be computed as equation \ref{eq:equation} (equation above).

where o_{i,m} is the m-th unit of the i-th input feature map O_i, q_{j,m} is the m-th unit of the j-th feature map Q_j of the convolution layer, w_{i,j,n} is the nth element of the weight vector, w_{i,j}, connecting the ith feature map of the input to the jth feature map of the convolution layer, and F is called the filter size which is the number of input bands that each unit of the convolution layer receives.

So far so good:

What i basically understood from this is what I've tried to illustrate in this image.

enter image description here

It seem to me what they are doing is actually processing all data points up to F, and across all feature maps. Basically moving in both x-y direction, and compute on point from that.

Isn't that basically 2d- convolution on a 2d image of size (I x F) with a filter equal to the image size?. The weight doesn't seem to differ at all have any importance here..?

So why am I asking this here..

I am trying to implement this, I am uncertain of what they are doing, is actually just basic convolution, in which a sliding window feed keeps feeding new data, or is what they doing not normal convolution, meaning that I need design a special layer that does this operation?...

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    Is there a programming related aspect to this question we can help with? Or to put it another way, have you tried coding this out and are getting odd results? The MO of this site is you give us a snippet of code, and we help you find the problem. – SeeDerekEngineer Aug 11 '17 at 15:44
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    I just added a elaboration on that.. @SeeDerekEngineer – Lamda Aug 11 '17 at 15:49
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    This should be on stats.stackexchange.com – Alexander McFarlane Aug 14 '17 at 13:51
  • Ohh... I guess I should move it then.. – Lamda Aug 14 '17 at 20:22
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Yes they are just using the usual convolution. It may be easier for you to look at page 54, where they simplified the equation. Here is the relevant screenshot:

enter image description here

As you can see, what they describe here is just the typical convolution operator.

| improve this answer | |
  • Could you elaborate a bit on the number of weights the weight matrix entails? an ordinary convolution layer in CNN has weight sharing, which this exact implementation also should have, but it seem to me that the number of weight in this implementation, make each processing very unique, and therefore no weight sharing. – J.Down Sep 6 '17 at 11:58

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