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.

I know that most common object detection involves Haar cascades and that there are many techniques for feature detection such as SIFT, SURF, STAR, ORB, etc... but if my end goal is to recognizes objects doesn't both ways end up giving me the same result? I understand using feature techniques on simple shapes and patterns but for complex objects these feature algorithms seem to work as well.

I don't need to know the difference in how they function but whether or not having one of them is enough to exclude the other. If I use Haar cascading, do I need to bother with SIFT? Why bother?

thanks

EDIT: for my purposes I want to implement object recognition on a broad class of things. Meaning that any cups that are similarly shaped as cups will be picked up as part of class cups. But I also want to specify instances, meaning a NYC cup will be picked up as an instance NYC cup.

share|improve this question
    
Are you familiar with how classification algorithms work? The way I see it, feature detection is merely part of object detection. See my answer. –  Peter O. Sep 29 '11 at 22:21
    
@PeterO. do you know of object detection techniques that involve the detection techniques that I mentioned? As far as I know, Haar isn't involved with them. Or are these more powerful feature detection limited to the developer incorporating machine learning on his own? –  mugetsu Sep 29 '11 at 22:29

3 Answers 3

up vote 4 down vote accepted

Object detection usually consists of two steps: feature detection and classification. In the feature detection step, the relevant features of the object to be detected are gathered. These features are input to the second step, classification. (Even Haar cascading can be used for feature detection, to my knowledge.) Classification involves algorithms such as neural networks, K-nearest neighbor, and so on. The goal of classification is to find out whether the detected features correspond to features that the object to be detected would have. Classification generally belongs to the realm of machine learning.

Face detection, for example, is an example of object detection.

share|improve this answer

Normally objects are collections of features. A feature tends to be a very low-level primitive thing. An object implies moving the understanding of the scene to the next level up.

A feature might be something like a corner, an edge etc. whereas an object might be something like a book, a box, a desk. These objects are all composed of multiple features, some of which may be visible in any given scene.

share|improve this answer
    
so what do people use feature detection for? To specify the instance of the object? –  mugetsu Sep 29 '11 at 21:40
    
so for my purposes would you say that object detection can be used for instance definition and that feature detection can be used to define a class? I know that Haar is pretty good at specific objects, but pretty bad at defining a broad class. With feature detection shouldn't I be able to find common features of objects in the same class and then thus determine them as the same class? –  mugetsu Sep 29 '11 at 21:47

Invariance, speed, storage; few reasons, I can think on top of my head. The other method to do would be to keep the complete image and then check whether the given image is similar to glass images you have in your database. But if you have a compressed representation of the glass, it will need lesser computation (thus faster), will need lesser storage and the features tells you the invariance across images.

Both the methods you mentioned are essentially the same with slight differences. In case of Haar, you detect the Haar features then you boost them to increase the confidence. Boosting is nothing but a meta-classifier, which smartly chooses which all Harr features to be included in your final meta-classification, so that it can give a better estimate. The other method, also more or less does this, except that you have more "sophisticated" features. The main difference is that, you don't use boosting directly. You tend to use some sort of classification or clustering, like MoG (Mixture of Gaussian) or K-Mean or some other heuristic to cluster your data. Your clustering largely depends on your features and application.

What will work in your case : that is a tough question. If I were you, I would play around with Haar and if it doesn't work, would try the other method (obs :>). Be aware that you might want to segment the image and give some sort of a boundary around for it to detect glasses.

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.