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In the Dalal and Triggs paper about HOG, it seems like the multi-scale detection works by scanning through the image pyramid. But I can't find which part of modules/objdetect/src/hog.cpp that do the pyramid scanning/loop. Is my understanding wrong, or I read the wrong source file?

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If you look at the source code for this function

void HOGCache::init(const HOGDescriptor* _descriptor,
        const Mat& _img, Size _paddingTL, Size _paddingBR,
        bool _useCache, Size _cacheStride)

You will see the following comments

// Initialize 2 lookup tables, pixData & blockData.
// Here is why:
// The detection algorithm runs in 4 nested loops (at each pyramid layer):
//  loop over the windows within the input image
//    loop over the blocks within each window
//      loop over the cells within each block
//        loop over the pixels in each cell
// As each of the loops runs over a 2-dimensional array,
// we could get 8(!) nested loops in total, which is very-very slow.
// To speed the things up, we do the following:
//   1. loop over windows is unrolled in the HOGDescriptor::{compute|detect} methods;
//         inside we compute the current search window using getWindow() method.
//         Yes, it involves some overhead (function call + couple of divisions),
//         but it's tiny in fact.
//   2. loop over the blocks is also unrolled. Inside we use pre-computed blockData[j]
//         to set up gradient and histogram pointers.
//   3. loops over cells and pixels in each cell are merged
//       (since there is no overlap between cells, each pixel in the block is processed once)
//      and also unrolled. Inside we use PixData[k] to access the gradient values and
//      update the histogram

As the comments explain, the loops are unrolled for optimisation purposes, which is perhaps why it's difficult to find them with a quick scan through the source code.

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