Название: Data Mining and Machine Learning Applications
Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Жанр: Базы данных
isbn: 9781119792505
isbn:
Figure 2.12 Cause patterns of ventilation system operations.
K-Means calculation shows three distinct kinds of tenants:
– Indoor condition touchy inhabitants (plotted in star): 2, 4, 6, 8
– Time delicate tenants (plotted in the cross): 7, 9
– Mixed sort inhabitants (plotted in specks): 1, 3, 5, 10.
The unpredictability of inhabitants’ conduct cause example could be seen from the information mining results. The Indoor condition touchy tenants are bound to cooperate with their ventilation control board when they feel somewhat unsatisfied about the indoor solace, while the time-delicate inhabitants are bound to carry on with fixed schedules (e.g., when they wake up or return from work and so forth, they modify the ventilation). There are likewise a few people in the middle of, as blended kind tenants, their practices are affected impressively by the two elements in a similar time.
2.6 Conclusion
In this chapter, we considered the expected properties of Data mining like Mining dynamic/streaming information, Mining diagram, and system information, Mining heterogeneous/multi-source information, Mining high dimensional information, Mining imbalanced information, Mining sight and sound Information, Mining logical information Mining consecutive information, Mining interpersonal organizations Mining spatial and fleeting Information and an information mining technique is proposed to examine the inhabitant conduct of modifying the ventilation stream in an as of late revamped network in the Netherlands. The goal is to uncover the shrouded inspiration driving tenants’ conduct and look for conceivable personal conduct standards among various individuals. An L1-regularized calculated relapse classifier was created and tuned to foresee the inhabitant’s conceivable response to a specific situation, during which it additionally assesses the overall significance of each element in the dynamic cycle numerically.
In a wider context, the comparison between tenants showed three impressive inspiring examples. To be particular the earth-driven sort, contrasting the tenants who are more touchy to the ecological variables, the time-driven sort corresponds to the occupants who have relatively set temporal tendencies, just like the occupants of the merged kind, whose behavior is far more unpredictable with no single tendency design that is clear on the situation and transient aspects.
The information-based strategy to explore tenants’ conduct presented in this investigation empowers additional opportunity to use the BMS information. The taking in drawn from the investigation could be utilized either to display individuals’ conduct all the more unequivocally in the structure reproduction program just as to add to the improvement of the insightful structure. Additionally, other than the customary ways to deal with exploring individuals’ conduct by directing a study or meeting, the algorithmic technique is more strong with less man-made aggravations.
References
1. Babcock, B., Babu, S., Datar, M., Motwani, R., Widom, J., Models and issues in data stream systems, in: Proceedings of PODS, 2002.
2. Golab, L. and Ozsu, M.T., Issues in Data Stream Management. SIGMOD Rec., 32, 2, 5–14, June 2003.
3. Henzinger, M., Raghavan, P., Rajagopalan, S., Computing on data streams. Technical Note 1998-011, Digital Systems Research Center, Palo Alto, CA, May 1998.
4. Muthukrishnan, S., Data streams: Algorithms and applications. Proceedings of the Fourteenth Annual ACM-SIAM Symposium on Discrete Algorithms, 2003.
5. Muthukrishnan, S., Seminar on Processing Massive Data Sets, Available Online: http://athos.rutgers.edu/%7Emuthu/stream-seminar.html, 2003.
6. Garofalakis, M., Gehrke, J., Rastogi, R., Querying and mining data streams: You only get one look a tutorial. SIGMOD Conference 2002, p. 635, 2002.
7. Kargupta, H., CAREER: Ubiquitous Distributed Knowledge Discovery from Heterogeneous Data. NSF Information and Data Management (IDM) Workshop, 2001.
8. Muthukrishnan, S., Data streams: Algorithms and applications. Proceedings of the Fourteenth Annual ACM-SIAM Symposium on Discrete Algorithms, 2003.
9. Pinto, H., Han, J., Pei, J., Wang, K., Chen, Q., Dayal, U., Multidimensional sequential pattern mining, in: Proceedings of the Tenth International Conference on Information and Knowledge Management, ACM, pp. 81–88, 2001.
10. Mabroukeh, N.R. and Ezeife, C.I., A taxonomy of sequential pattern mining algorithms. ACM Comput. Surv. (CSUR), 43, 1, 3, 2010.
11. Garofalakis, M.N., Rastogi, R., Shim, K., Spirit: Sequential pattern mining with regular expression constraints, in: VLDB, vol. 99, pp. 7–10, 1999.
12. Agrawal, R. and Srikant, R., Mining sequential patterns, in: Data Engineering, 1995. Proceedings of the Eleventh International Conference, IEEE, pp. 3–14, 1995.
13. Echo, E., Raïssi, C., Ienco, D., Jay, N., Napoli, A., Poncelet, P., Quantin, C., Teisseire, M., Healthcare trajectory mining by combining multidimensional components and itemsets, in: International Workshop on New Frontiers in Mining Complex Patterns, Springer, pp. 109–123, 2012.
14. Yu, C.-C. and Chen, Y.-L., Mining sequential patterns from multidimensional sequence data. IEEE Trans. Knowl. Data Eng., 17, 1, 136–140, 2005.
15. Raïssi, C. and Plantevit, M., Mining multidimensional sequential patterns over data streams, in: International Conference on Data Warehousing and Knowledge Discovery, Springer, pp. 263–272, 2008.
16. Padhy, N. and Panigrahi, R., Multi relational data mining approaches A data mining technique. International Journal of Computer Applications (0975 – 8887) Volume 57– No.17, pp. 23-32, November 2012, arXiv preprint arXiv:1211.3871, 2012.
17. Džeroski, S., Multi-relational data mining: An introduction. ACM SIGKDD Explor. Newsl., 5, 1, 1–16, 2003.
18. Paulheim, H., Exploiting linked open data as background knowledge in data mining. DMoLD, vol. 1082, 2013.
19. Siebes, A. and Struzik, Z., Complex data: Mining using patterns, in: Pattern Detection and Discovery, pp. 24–35, Springer, Berlin, 2002.
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