Abstract
Given a set of query points, a dynamic skyline query reports all data points that are not dominated by other data points according to the distances between data points and query points. In this paper, we study d ynamic s kyline queries in a large g raph (DSG-query for short). Although dynamic skylines have been studied in Euclidean space [14], road network [5], and metric space [3,6], there is no previous work on dynamic skylines over large graphs. We employ a filter-and-refine framework to speed up the query processing that can answer DSG-query efficiently. We propose a novel pruning rule based on graph properties to derive the candidates for DSG-query, that are guaranteed not to introduce false negatives. In the refinement step, with a carefully-designed index structure, we compute short path distances between vertices in O(H), where H is the number of maximal hops between any two vertices. Extensive experiments demonstrate that our methods outperform existing algorithms by orders of magnitude.
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References
Börzsönyi, S., Kossmann, D., Stocker, K.: The skyline operator. In: ICDE (2001)
Chan, E.P.F., Lim, H.: Optimization and evaluation of shortest path queries. VLDB J. 16(3) (2007)
Chen, L., Lian, X.: Dynamic skyline queries in metric spaces. In: EDBT (2008)
Cormen, T.H., Leiserson, C.E., Rivest, R.L., Stein, C.: Introduction to algorithms. MIT Press, Cambridge (2001)
Deng, K., Zhou, X., Shen, H.T.: Multi-source skyline query processing in road networks. In: ICDE (2007)
Fuhry, D., Jin, R., Zhang, D.: Efficient skyline computation in metric space. TR-KSU-CS-2008-02, Department of Computer Science Kent State University (2008)
Jing, N., Huang, Y.-W., Rundensteiner, E.A.: Hierarchical encoded path views for path query processing: An optimal model and its performance evaluation. IEEE Trans. Knowl. Data Eng. 10(3) (1998)
Jung, S., Pramanik, S.: An efficient path computation model for hierarchically structured topographical road maps. IEEE Trans. Knowl. Data Eng. 14(5) (2002)
Kossmann, D., Ramsak, F., Rost, S.: Shooting stars in the sky: An online algorithm for skyline queries. In: VLDB (2002)
Lee, K.C.K., Zheng, B., Li, H., Lee, W.-C.: Approaching the skyline in z order. In: VLDB (2007)
Papadias, D., Tao, Y., Fu, G., Seeger, B.: An optimal and progressive algorithm for skyline queries. In: SIGMOD (2003)
Papadias, D., Zhang, J., Mamoulis, N., Tao, Y.: Query processing in spatial network databases. In: VLDB (2003)
Samet, H., Alborzi, J.S.H.: Scalable network distance browsing in spatial databases. In: SIGMOD (2008)
Sharifzadeh, M., Shahabi, C.: The spatial skyline queries. In: VLDB (2006)
Tan, K.-L., Eng, P.-K., Ooi, B.C.: Efficient progressive skyline computation. In: VLDB (2001)
Tong, H., Faloutsos, C.: Center-piece subgraphs: Problem definition and fast solutions. In: SIGKDD (2006)
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Zou, L., Chen, L., Özsu, M.T., Zhao, D. (2010). Dynamic Skyline Queries in Large Graphs. In: Kitagawa, H., Ishikawa, Y., Li, Q., Watanabe, C. (eds) Database Systems for Advanced Applications. DASFAA 2010. Lecture Notes in Computer Science, vol 5982. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-12098-5_5
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DOI: https://doi.org/10.1007/978-3-642-12098-5_5
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