Issue No. 02 - Feb. (2018 vol. 17)
Fuat Basik , Department of Computer Engineering, Bilkent University, Ankara, Turkey
Bugra Gedik , Department of Computer Engineering, Bilkent University, Ankara, Turkey
Cagri Etemoglu , AveaLabs, Türk Telekom, İstanbul, Turkey
Hakan Ferhatosmanoglu , the Department of Computer Engineering, Bilkent University, Ankara, Turkey
We are witnessing an enormous growth in the volume of data generated by various online services. An important portion of this data contains geographic references, since many of these services are
location-enhanced and thus produce spatio-temporal records of their usage. We postulate that the spatio-temporal usage records belonging to the same real-world entity can be matched across records from different location-enhanced services. Linking spatio-temporal records enables data analysts and service providers to obtain information that they cannot derive by analyzing only one set of usage records. In this paper, we develop a new linkage model that can be used to match entities from two sets of spatio-temporal usage records belonging to two different location-enhanced services. This linkage model is based on the concept of - $_$k$_$ $_$l$_$ diversity —that we developed to capture both spatial and temporal aspects of the linkage. To realize this linkage model in practice, we develop a scalable linking algorithm called ST-Link, which makes use of effective spatial and temporal filtering mechanisms that significantly reduce the search space for matching users. Furthermore, ST-Link utilizes sequential scan procedures to avoid random disk access and thus scales to large datasets. We evaluated our work with respect to accuracy and performance using several datasets. Experiments show that ST-Link is effective in practice for performing spatio-temporal linkage and can scale to large datasets.
Couplings, Mobile computing, Joining processes, Social network services, Poles and towers, Computer bugs
F. Basik, B. Gedik, C. Etemoglu and H. Ferhatosmanoglu, "Spatio-Temporal Linkage over Location-Enhanced Services," in IEEE Transactions on Mobile Computing, vol. 17, no. 2, pp. 447-460, 2018.