Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

My goal is to be able to have a person with a mobile phone snap a picture of a local landmark (building or otherwise (ex. gazebo, statue, etc)) on our college campus and be able to identify the landmark and tell them what it is.

For instance, they are walking around and they see a large building with a metal dome. They don't know what it is, but it looks interesting, so they snap a picture and the app tells them that it's the basketball center (and other relevant info).

My limited knowledge in this particular field led me to think of using neural networks and training the program to recognize particular places. If this is the case, please also give me resources for this option, as the extent of my knowledge of NN is that they can be used to recognize things if they are trained. :)

I know of the OpenCV library, but as I am not a C developer, I'd like to know if I need to go down that road before I start. I primarily work in Java, but I'm not opposed to getting my hands dirty.

Thanks!

share|improve this question
    
It just occurred to me that an alternative solution to this would be to track the phone's GPS to know where on campus they are. If the phone also gives me directional data, I would know generally what they were looking at without needing to process an image. Any thoughts on which option is better? –  Buns of Aluminum Jan 29 '11 at 21:21
4  
Your second one is much, much easier. –  belisarius Jan 29 '11 at 21:28
2  
I agree: the second idea could probably key off of the GPS-derived location and an image, even without camera direction data. Neural networks are one option, but there are plenty of others (naive Bayes, tree induction, SVM, etc.). With the location data alone, you could even produce a set of images of nearby landmarks for the user to select from. (How many could there be in one place?) –  Predictor Jan 29 '11 at 22:26

3 Answers 3

This is in response to your original question. The best resource would be the O'Reilly book Learning OpenCV

You can read the thing on Google books for free and it uses C along with OpenCV. You can use python or Java to suit your work.

The OpenCV library includes haar training and sample programs on training it for face/text recognition. After that you'll basically have to figure things out. Another useful resource I just stumbled upon is Intel's reference manual for OpenCV. So, good luck!

share|improve this answer

well using your second method is the much easier one, since you know where from the GPS coordinates and you know which way you're facing (since most mobile devices have an integrated compass and accelerometer). This is used by several Augmented Reality browsers already - if you use Android you might wanna have a look at "Layar"...

The more user friendly way would be via photography, since not every phone has GPS and they always need to turn it on first...

First of all you'd need to get the most salient structures and features of the buildings. OpenCV has some methods for that. Feature extraction is a big topic in image processing. You should probably extract edges on your image, take the prominent features/points and compare these to a database of the features of all the buildings you have.

You could use a neural network for training, but you'd still need a lot of reference pictures to extract data from to get a learning process.

(For comparing with the whole database of other objects you might even wanna have a look at a server-side calculation instead of doing all this on the phone)

Hope that helps...

share|improve this answer

Doing this as a computer vision task would be very difficult for someone with little computer vision experience - 10 years ago it was an entirely unsolved problem. But to get you started:

Neural networks (or properly, NN with back-propagation-style training) are rather old hat, and no longer the method of choice. Random forests are popular, mostly because they quite flexible, reasonably easy to implement, and have on-average no worse performance that the other classification methods around. Criminisi et al 2011 is the standard paper. http://research.microsoft.com/pubs/155552/decisionForests_MSR_TR_2011_114.pdf

Last time I checked the literature (a few years ago now) there appeared to be two good first choices of image feature. SIFT or sparse Haar wavelets.

Have a look at Criminisi et al 2008 (http://research.microsoft.com/pubs/72423/Criminisi_bmvc2008.pdf) for a random forest and Haar wavelet based object recognition system.

An alternative approach from Fergus et al. 2007, (http://cs.nyu.edu/~fergus/papers/fergus_ijcv.pdf) uses a simple image patch model tied together using a Bayesian network.

OpenCV is probably as good place as any to start to find existing code. Matlab also claims to have good support for these tasks.

share|improve this answer

Your Answer

 
discard

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.