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Convolution is a mathematical operation on two functions f and g, producing a third function that is typically viewed as a modified version of one of the original functions.

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Applying Convolution (In 2D) Theorem Swaps Quadrants

Since convolution via DFT is circular convolution, it's not so much of a quadrant swap as it is a wrap around. I believe that if you put the non-zero taps in the middle that it will fix the problem. …
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0 votes
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Is it meaningful to find linear convolution of just two random sequences?

No, if the two sequences are random then convolving them is not useful.
Jim Clay's user avatar
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9 votes
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Circular and Linear Convolution

Convolving that is circular convolution. In practice linear convolution and circular convolution are nearly the same, the difference happening at the beginning and the end of linear convolution. … With a few very rare exceptions we don't "choose" circular convolution. We almost always want linear convolution. …
Jim Clay's user avatar
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4 votes
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Breaking a convolution into smaller pieces

Convolution is a linear process, which means that superposition holds. Thus, you can break up any convolution kernel $k$ into multiple parts ($k_1, k_2, ... k_N$) such that $k = \sum k_i$. … The sum would be equal to the convolution product of the original kernel. Doing that would be inefficient, though, both in terms of computations and memory. …
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1 vote
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Kernel Convolution in Frequency Domain - Cyclic Padding

The figures are simply showing how the circular aspect of the convolution works in 2 dimensions. …
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1 vote

Understanding the transfer function of an FIR filter

I suspect it should be something like the following: $$ y[n] = h[n] * \delta[n + N] \Rightarrow H(z)\cdot z^N $$
Jim Clay's user avatar
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6 votes

What are the characteristics of a "good" smoothing convolution kernel?

Yes, in general, your #2 is correct. That being said, both of the filters stink (with your triangle filter being a little better). No, f3 does not have the same frequency response as f4. To get an …
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