Abstract
Metric-space indexing abstracts various data types into universal metric spaces and prunes data only exploiting the triangle inequality of the distance function in metric spaces. Since there is no coordinates in metric space, one usually first pick a number of reference points, pivots, and consider the distances from a data point to the pivots as its coordinates. In this paper, we first survey and discuss the state of the art of pivot selection for metric-space indexing from the perspectives of importance, objective function, number of pivots, and selection algorithm. Further, we propose a new objective function, a new method to determine the number of pivots and an incremental sampling framework for pivot selection. Experimental results show that the new objective function is more consistent with the query performance, the new method to determine the number of pivots is more efficient, and the incremental sampling framework leads to better query performance.
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