Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I have a bunch of images in a folder that are effectively just pieces of one image that was broken into overlapping parts. How can I quickly and programmatically recombine these images to create the original image?

I would prefer a solution that uses python or mathematica (or is an existing application), but I am open to other ideas as well (I am fairly proficient with Java).

share|improve this question
Another use case would be screenshots from 2D games with scrolling. My problem is essentially the same as the one presented in this closed question – Muhd Jun 24 '12 at 3:24
You may find this Q&A useful: – Mr.Wizard Jun 24 '12 at 7:38

5 Answers 5

You could use Autopano or something similar; if you want to roll it yourself, you might find SIFT algorithms useful

share|improve this answer

What you want is a tool for creating panoramas. There are various tools sold to do this with various features. Things to think about are:

  1. matching position vertically and horizontally
  2. varying brightness between images
  3. correcting for camera rotation and angle
share|improve this answer
While panorama tools would work (sort of), most or all of them do blending which is not what I want. Also, they aren't optimized for my use case, where the pixels match exactly for a certain region of both images. – Muhd Jun 24 '12 at 5:21

Are you intent on using a Java specific solution? If you're open to something else, I'm doing something similar for a project, and came up with a bash script set for Linux.

To do this, I used

  1. Hugin and hugin-tools from the Ubuntu repositories
  2. Panotools perl wrapper scripts
  3. This guide to get the generation functionality working via command line. In the example, pto_gen doesn't exist after installing hugin, but is replaced my match-n-shift in the Panotools scripts.

If you want to batch process multiple panoramas sequentially, you'll have to come up with a way of sorting, executing and moving files around. That was the fun part with my scripting process. Stitching the pictures together was easy, making sure they went to the right place afterwards was a bit tricky.

Right now, using a 4-core Xeon system with 4 GB RAM, stitching a 50 image 360 degree panorama takes ~30-45 minutes.

share|improve this answer
More complex and time consuming than what I need. I need something that just quickly finds a matching row or column of pixels and contatenates at that point. – Muhd Jun 24 '12 at 5:18
up vote 0 down vote accepted

Well, I no longer need to do this to do what I want to do, but I will share how I would do this if I were to write it in python (mix of psuedocode and python). Here I assume that the top left corner of subsequent images are always the point of overlap (which was true in my case). If you want to detect overlaps for any corner, you will need to detect which "corner" case (pun intended :D ) you are in and add handling for each case.

images = list of images to be stitched, loaded from directory
stitched_image = images[0]

for (image in images):
    if first image then skip it (continue)
    else combine_images(stitched_image, image)

def combine_images (stitched_image, image_to_add):
    top_left_corner = top left corner of image_to_add 
    // top_left_corner dimensions need to be big enough that you don't have a false positive, 
    // but not so big that the overlap doesn't exist
    coordinates = find_coordinates(stitched_image,top_left_corner)

    new_width = max(stitched_image.width,image_to_add.width + coordinates.x)
    new_height = max(stitched_image.height,image_to_add.width + coordinates.y)
    new_image = new Image(new_width,new_height) // See note 1

    stitched_image = new_image

def find_coordinates (image,sub_image):
    // See note 2 for how to implement


  1. Creating an image and pasting into it can be accomplised with PIL:

  2. See this question for how to find a sub_image in an image (may need to convert image to another representation): Finding a subimage inside a Numpy image. Also, for any proficient programmer, it wouldn't be at all difficult to manually inspect pixels in the matrix of pixels to find the overlap. You could add in additional optimization if you know roughly where the overlap is likely to occur by simply searching in the more likely areas first.

share|improve this answer

In Mathematica, you can use ImageCorrespondingPoints within the overlap region, and then FindGeometricTransform to compute an affine transformation that takes one image into the other. Note that the size of the images and and overlap regions influence the accuracy of the transformation. If you are doing something complex (like combining satellite images), you will need an overall geometric model for the result and then map each image to it. In such cases an affine transformation may not be sufficient.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.