DAHC-tree: An Effective Index for Approximate Search in High-Dimensional Metric Spaces
DOI:
https://doi.org/10.5753/jidm.2010.1280Keywords:
clustering methods, database indexing, metric access methods, metric spaces, similarity searchAbstract
Similarity search in high-dimensional metric spaces is a key operation in many applications, such as multimedia databases, image retrieval, object recognition, and others. The high dimensionality of the data requires special index structures to facilitate the search. A problem regarding the creation of suitable index structures for high-dimensional data is the relationship between the geometry of the data and the organization of an index structure. In this paper, we study the performance of a new index structure, called Divisive-Agglomerative Hierarchical Clustering tree (DAHC-tree), which reduces the effects imposed by the above liability. DAHC-tree is constructed by dividing and grouping the data set into compact clusters. We perform a rigorous experimental design and analyze the trade-offs involved in building such an index structure. Additionally, we present extensive experiments comparing our method against state-of-the-art of exact and approximate solutions. The conducted analysis and the reported comparative test results demonstrate that our technique significantly improves the performance of similarity queries.Downloads
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Published
2010-10-06
How to Cite
Almeida, J., Valle, E., Torres, R. da S., & Leite, N. J. (2010). DAHC-tree: An Effective Index for Approximate Search in High-Dimensional Metric Spaces. Journal of Information and Data Management, 1(3), 375. https://doi.org/10.5753/jidm.2010.1280
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Regular Papers