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 was reading up on recommender systems on wikipedia and the section on "Algorithms" seems to suggest that K nearest neighbour and collaborative filtering based user based algorithm are two different things. Is this correct? Given my understanding, aren't they both the same? If not, what are the differences between them? Thanks.

share|improve this question

2 Answers 2

Not exactly. They are similar (they share same ideas), but there are several major differences between them. In fact, article on Wikipedia describes only 2 most distinct ways to implement recommender systems, but there are much more of them that use idea from both these ways.

So here's how I understood Wikipedia article.

1st approach (KNN/profiles similarity)

First of all, KNN is not the main feature of the first approach. It's just an algorithm to find nearest items among the whole collection, so it can be used in collaborative filtering as well. The most important idea lies in a term "similarity". To recommend something to the user in question, you find people from his neighborhood that have similar profile. For example, you want to make recommendation for user John on the Facebook. You look at his Fb profile and then at profiles of his friends. You find 10 people with similar profiles and check what they like. If 8 of 10 people with similar profiles like new film, most probably John will like it too.

So, there are 2 important points here:

  • you look at user's neighborhood
  • you measure similarity of their profiles

Wikipedia article doesn't cover question of how to find similarity measure, but there are many ways, including searching for common terms in profile's text, finding best friends (my number of messages between them, connection graph analysis, etc.) and many others.

2nd approach (collaborative filtering)

In the second approach you don't need to analyze neighborhood and find similar profiles, but you need to collect users choices. Let's recall an example with Facebook user John. Imagine, that we can get all "likes" of all Fb users, including those of John. With them you can build very large correlation matrix, where rows are user ids and columns are all possible items they may "like". If the actually "liked" an item, cell for current user and current item is set to 1, otherwise it is 0.

With such a matrix (built or abstract) you can use association mining to find the most strong associations. For example, 10000 people who liked "Pirates of the Caribbean 2" also liked "Pirates of the Caribbean 3", but only 500 of them liked "Saw". So we can suppose that association between 2 episodes of "Pirates" is much stronger. Note, that we haven't analyzed neither users, nor films themselves (we didn't take into account film names, plots, actors or something like that - only "likes"). This is major advantage of collaborative filtering over methods based on similarity.

Finally, to recommend film to out user John you just iterate over his "likes" and find other items that have strongest associations with the current one.

So, important points here are:

  • you don't use neighborhood, but instead complete database of all users
  • you use people's choices and find associations

Both approaches have their strong and weak points. 1st approach is based on some kind of connections between people (e.g. friends on Facebook) and hardly can be used for services like Amazon. At the same time 2nd approach is based on the averaged preferences of all users and thus isn't good option for systems with highly different favors.

share|improve this answer

I'm going to give an illustration of two methods:

The difference between the 2 methods is pretty much the same as asking your neigbhbours for an advice compared to asking your friends :

  • The similarity between 2 persons for collaborative filtering is define by preference you share
  • The similarity for K-nearest neighbour is defined by a distance (but the distance can be the same as for collaborative filtering)

Moreover in the first case you look K neighbourgh (that is a fix number) and in the second you look at all your dataset.

In some cases on can give better advice than the other :

For example:

If I want to buy a TV and I ask my friend that live in a big house, He will advice me a large screen. But my neighbour who lives in the appartment next to me will advice me a small one because the big won't fit in his appartment. (similar to mine). So my neighbour advice is better in this case.

If I want to buy a movie, my best friend will abviously give me a better advice than my neighbour.

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.