Can somebody give a good explanation of FFT image transform How the FFT transformed image and it's Re^2+Im^2 image can be analyzed? I just want to understand something when loiking to the image and it's frequency.
closed as off-topic by Andrew Barber♦ Oct 3 '13 at 15:41
This question appears to be off-topic. The users who voted to close gave this specific reason:
- "Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results. See also: Stack Overflow question checklist" – Andrew Barber
EDIT: There is a great introduction to the concepts here.
There's a fair bit of math behind that question. In simple terms, consider a 1-D function, such as an audio clip. The fourier transform identifies the frequencies present in that signal. Each sample in the original audio clip correlates to the amplitude of the sound wave at any given point in time. In contrast, each sample in the fourier transform identifies the amplitude of a particular frequency of oscillation. For example, a pure sine wave at 1 kHz will have a fourier transform with a single spike at the 1 kHz mark. Audio waves are combinations of many different sine waves, and the fourier transform isolates which sine waves are contributing and by how much. (Note that the real explanation requires delving into complex numbers, but the foregoing gives the essence of what's going on).
The fourier transform of an image is a simple extension of the 1-D fourier transform into two dimensions, and is achieved by simply applying the 1-D transform to each row of an image, and then transforming each column of the resulting image. It produces essentially the same thing. A picture of smooth water waves travelling in a diagonal direction will transform to a series of spikes along that same diagonal.
The fourier transform is defined over continuous functions. The FFT is an technique for efficiently evaluating the fourier transform over discrete sets of data.
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