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Similarity & Recommendation
Arjen P. de Vries
[email protected] CWI Scientific Meeting
September 27th 2013
Recommendation
• Informally:– Search for information “without a query”
• Three types:– Content-based recommendation– Collaborative filtering (CF)
• Memory-based• Model-based
– Hybrid approaches
Recommendation
• Informally:– Search for information “without a query”
• Three types:– Content-based recommendation– Collaborative filtering
• Memory-based• Model-based
– Hybrid approaches
Today’s focus!
Collaborative Filtering• Collaborative filtering (originally introduced by
Patti Maes as “social information filtering”)
1. Compare user judgments2. Recommend differences between
similar users
• Leading principle:People’s tastes are not randomly distributed– A.k.a. “You are what you buy”
Collaborative Filtering• Benefits over content-based approach
– Overcomes problems with finding suitable features to represent e.g. art, music
– Serendipity– Implicit mechanism for qualitative aspects like
style
• Problems: large groups, broad domains
Context• Recommender systems
– Users interact (rate, purchase, click) with items
Context• Recommender systems
– Users interact (rate, purchase, click) with items
Context• Recommender systems
– Users interact (rate, purchase, click) with items
Context• Recommender systems
– Users interact (rate, purchase, click) with items
Context• Nearest-neighbour recommendation methods
– The item prediction is based on “similar” users
Context• Nearest-neighbour recommendation methods
– The item prediction is based on “similar” users
Similarity
Similarity
Similarity
s( , ) sim( , )s( , )
Research Question
• How does the choice of similarity measure determine the quality of the recommendations?
Sparseness
• Too many items exist, so many ratings will be missing
• A user’s neighborhood is likely to extend to include “not-so-similar” users and/or items
“Best” similarity?
• Consider cosine similarity vs. Pearson similarity
• Most existing studies report Pearson correlation to lead to superior recommendation accuracy
“Best” similarity?
• Common variations to deal with sparse observations:– Item selection:
• Compare full profiles, or only on overlap
– Imputation:• Impute default value for unrated items
– Filtering:• Threshold on minimal similarity value
“Best” similarity?
• Cosine superior (!), but not for all settings– No consistent results
Analysis
Distance Distribution
• In high dimensions, nearest neighbour is unstable:If the distance from query point to most data points is less than (1 + ε) times the distance from the query point to its nearest neighbour
Beyer et al. When is “nearest neighbour” meaningful? ICDT 1999
Distance Distribution
Beyer et al. When is “nearest neighbour” meaningful? ICDT 1999
Distance Distribution
• Quality q(n, f): Fraction of users for which the similarity function has ranked at least n percent of the user community within a factor f of the nearest neighbour’s similarity value (well... its corresponding distance)
Distance Distribution
NNk Graph
• Graph associated with the top k nearest neighbours
• Analysis focusing on the binary relation of whether a user does or does not belong to a neighbourhood– Ignore similarity values (already included in
the distance distribution analysis)
NNk Graph
MRR vs. Features
• Quality:– If most of the user population is far away, high
similarity correlates with effectiveness– If most of the user population is close, high
similarity correlates with ineffectiveness
MRR vs. Features
Conclusions (so far)
• “Similarity features” correlate with recommendation effectiveness– “Stability” of a metric (as defined in database
literature on k-NN search in high dimensions) is related to its ability to discriminate between good and bad neighbours
Future Work
• How to exploit this knowledge to now improve recommendation systems?
News Recommendation Challenge
Thanks
• Alejandro Bellogín – ERCIM fellow in the Information Access group
Details: Bellogín and De Vries, ICTIR 2013.