Abstract
Researches on spatiotemporal data based on XML has received increasing attention due to that XML has a lot of advantages such as extensibility and flexibility. Although XML has been employed to model and handle spatiotemporal data, relatively little work has been carried out to further investigate the consistencies of spatiotemporal data, especially fuzzy spatiotemporal data in XML documents . In this chapter, first a fuzzy spatiotemporal data model has been proposed, and then the structure of fuzzy spatiotemporal data in XML document is presented. After studying consistency conditions for fuzzy spatiotemporal data in XML documents , how updating operations, inserting operations, and deleting operations effect on consistencies of fuzzy spatiotemporal data in XML documents are demonstrated. Furthermore, the algorithm fixing these inconsistencies is presented. After investigating several characteristics of the three primitive changing operations on the fuzzy spatiotemporal data model, the performances of inconsistency fixing time are evaluated.
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References
Arenas, M., Fan, W., & Libkin, L. (2002). On verifying consistency of XML specifications. In Proceedings of the Twenty-first ACM SIGMOD-SIGACT-SIGART Symposium on Principles of Database Systems (pp. 259–270). Madison, Wisconsin: ACM.
Arenas, M., Fan, W., & Libkin, L. (2005). Consistency of XML specifications. In Inconsistency Tolerance (pp. 15–41). Berlin, Heidelberg: Springer.
Arenas, M., Fan, W., & Libkin, L. (2008). On the complexity of verifying consistency of XML specifications. SIAM Journal on Computing, 38(3), 841–880.
Bravo, L., Cheney, J., Fundulaki, I., & Segovia, R. (2012). Consistency and repair for XML write-access control policies. The VLDB Journal, 21(6), 843–867.
Campo, M., & Vaisman, A. (2006). Consistency of temporal XML documents. In Proceedings of the 2006 International XML Database Symposium (pp. 31–45). Berlin, Heidelberg: Springer.
Du, S., Guo, L., & Wang, Q. (2010). A scale-explicit model for checking directional consistency in multi-resolution spatial data. International Journal of Geographical Information Science, 24(3), 465–485.
Du, S., Qin, Q., Wang, Q., & Ma, H. (2008). Evaluating structural and topological consistency of complex regions with broad boundaries in multi-resolution spatial databases. Information Sciences, 178(1), 52–68.
Duckham, M., Lingham, J., Mason, K., & Worboys, M. (2006). Qualitative reasoning about consistency in geographic information. Information Sciences, 176(6), 601–627.
Fan, W., Kuper, G. M., & Siméon, J. (2002). A unified constraint model for XML. Computer Networks, 39(5), 489–505.
Flesca, S., Furfaro, F., Greco, S., & Zumpano, E. (2005). Querying and repairing inconsistent XML data. In Proceedings of the 2005 International Conference on Web Information Systems Engineering (pp. 175–188). Berlin, Heidelberg: Springer.
Haw, S. C., & Rao, G. R. K. (2007). A comparative study and benchmarking on xml parsers. In Proceedings of the 9th International Conference on Advanced Communication Technology (pp. 321–325). Okamoto, Kobe, Japan: IEEE.
Li, C. (2009). XML Parsing, SAX/DOM. In Encyclopedia of database systems (3598–3601). US: Springer.
Lin, K., Chen, S. C., Chen, C. S., Lin, D. T., & Hung, Y. P. (2015). Abandoned object detection via temporal consistency modeling and back-tracing verification for visual surveillance. IEEE Transactions on Information Forensics and Security, 10(7), 1359–1370.
Megginson, D. (2010). Simple API for XML (SAX), http://www.megginson.com/downloads/SAX/.
Pinet, F., Duboisset, M., & Soulignac, V. (2007). Using UML and OCL to maintain the consistency of spatial data in environmental information systems. Environmental Modelling and Software, 22(8), 1217–1220.
Rizzolo, F., & Vaisman, A. A. (2008). Temporal XML: Modeling, indexing, and query processing. The VLDB Journal, 17(5), 1179–1212.
Servigne, S., Ubeda, T., Puricelli, A., & Laurini, R. (2000). A methodology for spatial consistency improvement of geographic databases. GeoInformatica, 4(1), 7–34.
Stefanakis, E. (2001). A unified framework for fuzzy spatio-temporal representation and reasoning. In Proceedings of the 20th International Cartographic Conference (pp. 2678–2687). Beijing, China.
Suter, G. (2013). Structure and spatial consistency of network-based space layouts for building and product design. Computer-Aided Design, 45(8–9), 1108–1127.
Tan, Z., Wang, W., & Shi, B. (2006). Extending tree automata to obtain consistent query answer from inconsistent XML document. In Proceedings of the First International Multi-Symposiums on Computer and Computational Sciences (pp. 488–495). Hanzhou, China: IEEE.
Tan, Z., Zhang, Z., Wang, W., & Shi, B. (2007). Consistent data for inconsistent XML document. Information and Software Technology, 49(9–10), 947–959.
Xiong, M., Wang, Q., & Ramamritham, K. (2008). On earliest deadline first scheduling for temporal consistency maintenance. Real-Time Systems, 40(2), 208–237.
W3C Document Object Model (DOM). (2010). http://www.w3.org/DOM/.
Wu, A., He, Q., Tan, Z., & Wang, W. (2008). A verifier for inconsistent XML document. In Proceedings of the 2008 International Symposium on Information Science and Engineering (Vol. 2, pp. 711–715). Shanghai, China: IEEE.
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Ma, Z., Bai, L., Yan, L. (2020). Consistencies in Fuzzy Spatiotemporal XML Updating. In: Modeling Fuzzy Spatiotemporal Data with XML. Studies in Computational Intelligence, vol 894. Springer, Cham. https://doi.org/10.1007/978-3-030-41999-8_8
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DOI: https://doi.org/10.1007/978-3-030-41999-8_8
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