TY - GEN
T1 - On the stability of recommendation algorithms
AU - Adomavicius, Gediminas
AU - Zhang, Jingjing
PY - 2010
Y1 - 2010
N2 - The paper introduces stability as a new measure of the recommender systems performance. In general, we define a recommendation algorithm to be "stable" if its predictions for the same items are consistent over a period of time, assuming that any new ratings that have been submitted to the recommender system over the same period of time are in complete agreement with system's prior predictions. In this paper, we advocate that stability should be a desired property of recommendation algorithms, because unstable recommendations can lead to user confusion and, therefore, reduce trust in recommender systems. Furthermore, we empirically evaluate stability of several popular recommendation algorithms. Our results suggest that modelbased recommendation techniques demonstrate higher stability than memory-based collaborative filtering heuristics. We also find that the stability measure for recommendation techniques is influenced by many factors, including the sparsity of the initial rating data, the number of new incoming ratings (representing the length of the time period over which the stability is being measured), the distribution of the newly added rating values, and the rating normalization procedures employed by the recommendation algorithms.
AB - The paper introduces stability as a new measure of the recommender systems performance. In general, we define a recommendation algorithm to be "stable" if its predictions for the same items are consistent over a period of time, assuming that any new ratings that have been submitted to the recommender system over the same period of time are in complete agreement with system's prior predictions. In this paper, we advocate that stability should be a desired property of recommendation algorithms, because unstable recommendations can lead to user confusion and, therefore, reduce trust in recommender systems. Furthermore, we empirically evaluate stability of several popular recommendation algorithms. Our results suggest that modelbased recommendation techniques demonstrate higher stability than memory-based collaborative filtering heuristics. We also find that the stability measure for recommendation techniques is influenced by many factors, including the sparsity of the initial rating data, the number of new incoming ratings (representing the length of the time period over which the stability is being measured), the distribution of the newly added rating values, and the rating normalization procedures employed by the recommendation algorithms.
KW - Collaborative filtering
KW - Evaluation of recommender systems
KW - Performance measures
KW - Stability of recommendation algorithms
UR - http://www.scopus.com/inward/record.url?scp=78649967303&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=78649967303&partnerID=8YFLogxK
U2 - 10.1145/1864708.1864722
DO - 10.1145/1864708.1864722
M3 - Conference contribution
AN - SCOPUS:78649967303
SN - 9781450304429
T3 - RecSys'10 - Proceedings of the 4th ACM Conference on Recommender Systems
SP - 47
EP - 54
BT - RecSys'10 - Proceedings of the 4th ACM Conference on Recommender Systems
T2 - 4th ACM Recommender Systems Conference, RecSys 2010
Y2 - 26 September 2010 through 30 September 2010
ER -