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I am having a hard time understanding what scipy.cluster.vq really does!!

On Wikipedia it says Clustering can be used to divide a digital image into distinct regions for border detection or object recognition.
on other sites and books it says we can use clustering methods for clustering images for finding groups of similar images.
AS i am interested in image processing ,I really need to fully understand what clustering is .

Can anyone show me simple examples about using scipy.cluster.vq with images??

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up vote 3 down vote accepted

The kind of clustering performed by scipy.cluster.vq is definitely of the latter (groups of similar images) variety.

The only clustering algorithm implemented in scipy.cluster.vq is the K-Means algorithm, which typically treats input data as points in n-dimensional euclidean space, and attempts to divide that space so that new, incoming data can be summarized by saying "example x is most like centroid y". Centroids can be thought of as prototypical examples of the input data. Vector quantization leads to concise, or compressed representations because, instead of remembering all 100 pixels of each new image we see, we can remember a single integer which points at the prototypical example that the new image is most like.

If you had many small grayscale images:

>>> import numpy as np
>>> images = np.random.random_sample((100,10,10))

So, we've got 100 10x10 pixel images. Let's assume they already all have similar brightness and contrast. The scipy kmeans implementation expects flat vectors:

>>> images = images.reshape((100,100))
>>> images.shape

Now, let's train the K-Means algorithm so that any new incoming image can be assigned to one of 10 clusters:

>>> from scipy.cluster.vq import kmeans, vq
>>> codebook,distortion = kmeans(images,10)

Finally, let's say we have five new images we'd like to assign to one of the ten clusters:

>>> newimages = np.random.random_samples((5,10,10))
>>> clusters = vq(newimages.reshape((5,100)),codebook)

clusters will contain the integer index of the best matching centroid for each of the five examples.

This is kind of a toy example, and won't yield great results unless the objects of interest in the images you're working with are all centered. Since objects of interest might appear anywhere in larger images, it's typical to learn centroids for smaller image "patches", and then convolve them (compare them at many different locations) with larger images to promote translation-invariance.

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After images = images.ravel(), images.shape should be (10000,). – Warren Weckesser Oct 10 '12 at 8:07
Very nice that I up-voted .Yes I'm about to get it but would you explain in a simpler scientific English what is Kmeans and centroids . If you can post any image so I can visualize what is going on ,this is gonna be appreciated.Thanks – Someone Someoneelse Oct 10 '12 at 12:16
Thanks @WarrenWeckesser, you're right. I've edited the code so that reshape is used instead of ravel. – John Vinyard Oct 10 '12 at 13:41
@SomeoneSomeoneelse, check out the images here:…. That's a visualization of clusters from points in 2D space. In my example, we're clustering in 100-dimensional space. – John Vinyard Oct 10 '12 at 13:43
You may want to revise this part clusters = vq(newimages.**reshape((100,100))**,codebook).Anyway I'm playing with your code trying to fully understand.Thanks – Someone Someoneelse Oct 10 '12 at 14:40

The second is what clustering is: group objects that are somewhat similar (and that could be images). Clustering is not a pure imaging technique.

When processing a single image, it can for example be applied to colors. This is a quite good approach for reducing the number of colors in an image. If you cluster by colors and pixel coordinates, you can also use it for image segmentation, as it will group pixels that have a similar color and are close to each other. But this is an application domain of clustering, not pure clustering.

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How do u cluster various images into groups then? – Jonas Jun 18 '14 at 6:24

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