Abstract
Temporal record linkage is the process of identifying groups of records that are collected over a period of time, such as in census or voter registration databases, where records in the same group represent the same real-world entity. Such databases often contain temporal information, such as the time when a record was created or when it was modified. Unlike traditional record linkage, which considers differences between records from the same entity as errors or variations, temporal record linkage aims to capture records from entities where the attribute values are known to change over time. In this paper we propose a novel approach that extends an existing temporal approach called decay model, to categorically calculate probabilities of change for each attribute. Our novel method uses a regression-based machine learning model to predict decays for sets of attributes. Each such set of attributes has a principle attribute and support attributes, where values of the support attributes can affect the decay of the principle attribute. Our experimental results on a real US voter database show that our proposed approach results in better linkage quality compared to the decay model approach.
This work was partially funded by the Australian Research Council under Discovery Project DP160101934.
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Benjelloun, O., Garcia-Molina, H., Menestrina, D., Su, Q., Whang, S.E., Widom, J.: Swoosh: a generic approach to entity resolution. VLDB J. 18(1), 255–276 (2009)
Blum, A.L., Langley, P.: Selection of relevant features and examples in machine learning. Artif. Intell. 97(1–2), 245–271 (1997)
Chiang, Y.H., Doan, A., Naughton, J.F.: Modeling entity evolution for temporal record matching. In: ACM SIGMOD, Snowbird, Utah (2014)
Chiang, Y.H., Doan, A., Naughton, J.F.: Tracking entities in the dynamic world: a fast algorithm for matching temporal records. PVLDB 7(6), 469–480 (2014)
Christen, P.: Data Matching - Concepts and Techniques for Record Linkage, Entity Resolution, and Duplicate Detection. Springer, Heidelberg (2012)
Christen, P., Gayler, R.W.: Adaptive temporal entity resolution on dynamic databases. In: Pei, J., Tseng, V.S., Cao, L., Motoda, H., Xu, G. (eds.) PAKDD 2013. LNCS (LNAI), vol. 7819, pp. 558–569. Springer, Heidelberg (2013). doi:10.1007/978-3-642-37456-2_47
Fellegi, I.P., Sunter, A.B.: A theory for record linkage. JASA 64(328), 1183–1210 (1969)
Hand, D., Christen, P.: A note on using the F-measure for evaluating data linkage algorithms. Pre-print NI16047, Isaac Newton Institute, Cambridge, UK (2016)
Herzog, T.N., Scheuren, F.J., Winkler, W.E.: Data Quality and Record Linkage Techniques. Springer, New York (2007)
Krueger, D., Montgomery, D.C., Peck, E.A., Vining, G.G.: Introduction to Linear Regression Analysis. Wiley, Hoboken (2015)
Kum, H.C., Krishnamurthy, A., Machanavajjhala, A., Ahalt, S.C.: Social genome: putting big data to work for population informatics. IEEE Comput. 47(1), 56–63 (2014)
Li, F., Lee, M.L., Hsu, W., Tan, W.C.: Linking temporal records for profiling entities. In: ACM SIGMOD, Melbourne (2015)
Li, P., Dong, X.L., Maurino, A., Srivastava, D.: Linking temporal records. PVLDB 4(11), 956–967 (2011)
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Hu, Y., Wang, Q., Vatsalan, D., Christen, P. (2017). Improving Temporal Record Linkage Using Regression Classification. In: Kim, J., Shim, K., Cao, L., Lee, JG., Lin, X., Moon, YS. (eds) Advances in Knowledge Discovery and Data Mining. PAKDD 2017. Lecture Notes in Computer Science(), vol 10234. Springer, Cham. https://doi.org/10.1007/978-3-319-57454-7_44
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