Clustering and exploring search results using timeline constructions
Proceedings of the 18th ACM conference on Information and knowledge management
Promotion analysis in multi-dimensional space
Proceedings of the VLDB Endowment
Measuring constraint-set utility for partitional clustering algorithms
PKDD'06 Proceedings of the 10th European conference on Principle and Practice of Knowledge Discovery in Databases
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In multidimensional data, Promotional Subspace Mining (PSM) aims to find out outstanding subspaces for a given object, and to discover meaningful rules from them. In PSM, one major research issue is to produce top subspaces efficiently given a predefined subspace ranking measure. A common approach is to achieve an exact solution, which searches through the entire subspace search space and evaluate the target object's rank in every subspace, assisted with possible pruning strategies. In this paper, we propose EProbe, an Efficient Subspace Probing framework. This novel framework strives to initialize the idea of "early stop" of the top subspace search process. The essential goal is to provide a scalable, cost-effective, and flexible solution where its accuracy can be traded with the efficiency using adjustable parameters. This framework is especially useful when the computation resources are insufficient and only a limited number of candidate subspaces can be evaluated. As a first attempt to seek solutions under EProbe framework, we propose two novel algorithms SRatio and SlidingCluster. In our experiments, we illustrate that these two algorithms could produce a more effective subspace traversal order. Being effective, the top-k subspaces included in the final results are shown to be evaluated in the early stage of the subspace traversal process.