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If I take a picture with a camera, so I know the distance from the camera to the object, such as a scale model of a house, I would like to turn this into a 3D model that I can maneuver around so I can comment on different parts of the house.

If I sit down and think about taking more than one picture, labeling direction, and distance, I should be able to figure out how to do this, but, I thought I would ask if someone has some paper that may help explain more.

What language you explain in doesn't matter, as I am looking for the best approach.

Right now I am considering showing the house, then the user can put in some assistance for height, such as distance from the camera to the top of that part of the model, and given enough of this it would be possible to start calculating heights for the rest, especially if there is a top-down image, then pictures from angles on the four sides, to calculate relative heights.

Then parts will need to differ in color to help separate out the various parts of the model I expect also.

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supervised + unsupervised learning demo: youtube.com/watch?v=UzxYlbK2c7E#t=54m50s –  Karoly Horvath Oct 9 '11 at 18:12
@yi_H - Thank you for the suggestion on the video. –  James Black Oct 9 '11 at 20:08
Added image-processing to the tags as this is both a modelling and image processing type of task. Perhaps some of the experts in that world can also help!!! –  trumpetlicks Jun 4 '12 at 20:21
Some other FUN links: make3d.cs.cornell.edu insight3d.sourceforge.net –  trumpetlicks Jun 4 '12 at 20:24

4 Answers 4

up vote 26 down vote accepted

As mentioned, the problem is very hard and is often also referred to as multi-view object reconstruction. It is usually approached by solving the stereo-view reconstruction problem for each pair of consecutive images.

Performing stereo reconstruction requires that pairs of images are taken that have a good amount of visible overlap of physical points. If you have:

then the stereo reconstruction problem can be solved for all these matching points using only matrix theory. However, this requires a lot of theory about co-ordinate projections with homogeneous co-ordinates and also knowledge of the pinhole camera model and camera matrix. More specifically, you would need to calculate the fundamental and essential matrices and then use triangulation to find the 3D co-ordinates of the points.

This whole stereo reconstruction would then be repeated for each pair of consecutive images (implying that you need an order to the images or at least knowledge of which images have many overlapping points). For each pair you can consider the matching positions of any 8 points.

In your case you probably want a method that works without needing the camera parameters so that it works for unknown camera set-ups. For this you should probably look into methods for uncalibrated stereo reconstruction. My knowledge is actually quite thin on most of the theory, so the best I can do is to further provide you with some references that are hopefully useful (in order of relevance):

I'm not sure how helpful all of this is, but hopefully it includes enough useful terminology and references to find further resources. As you can see, this is far from a solved problem and is still actively researched. The less you want to do in an automated manner the more well-defined the problem becomes, but even in these cases quite a bit of theory is required to get started.

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I think the references will be a huge help. My son likes to build with Legos and it would be nice if he could take pictures and then rotate his design to explain what different parts are for. –  James Black Jun 3 '12 at 20:53
For Legos I believe it should be possible to develop a solution that does everything and creates a complete 3D model of the outermost visible layer of your assembly. Legos have the benefit of being a small set of blocks with known shapes. It'd probably make for a nice Ph.D. dissertation :) –  Kuba Ober Jun 4 '12 at 13:06
The previous comment has the seeds of your solution if your goal is generating 3D models of 2D lego pictures - one thing to consider that would vastly simplify your algorithmic misery is to restrict the lego construction such that each particular block shape has a unique color - then your system can recover data lost due to the projection that formed the image easily - otherwise, it is still a PhD level effort and a lot of heuristics –  Mark Mullin Jun 4 '12 at 15:21
Thank you, this was great help. –  Pete Jul 2 at 5:12

This problem is known as Photogrammetry.

Google will supply you with endless references, just be aware that if you want to roll your own, it's a very hard problem.

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Thanks. I didn't know the name, that will help. –  James Black May 29 '12 at 15:22

Check out The Deadalus Project, althought that website does not contain a gallery with illustrative information about the solution, it post several papers and info about the working method.

I watched a lecture from one of the main researchers of the project (Roger Hubbold), and the image results are quite amazing! Althought is a complex and long problem. It has a lot of tricky details to take into account to get an approximation of the 3d data, take for example the 3d information from wall surfaces, for which the heuristic to work is as follows: Take a photo with normal illumination of the scene, and then retake the picture in same position with full flash active, then substract both images and divide the result by a pre-taken flash calibration image, apply a box filter to this new result and then post-process to estimate depth values, the whole process is explained in detail in this paper (which is also posted/referenced in the project website)

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Google Sketchup (free) has a photo matching tool that allows you to take a photograph and match its perspective for easy modeling.

EDIT: It appears that you're interested in developing your own solution. I thought you were trying to obtain a 3D model of an image in a single instance. If this answer isn't helpful, I apologize.

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