A New Horizo-Vertical Distributed Feature Selection Approach

1. Chan, P. K., S. J. Stolfo. Toward Parallel and Distributed Learning by Meta-Learning. – In: Proc. of AAAI Workshop in Knowledge Discovery in Databases, 1993, pp. 227-240.Search in Google Scholar

2. Ananthanarayana, V. S., D. K. Subramanian, M. N. Murty. Scalable, Distributed and Dynamic Mining of Association Rules. – In: Proc. of International Conference on High-Performance Computing, Springer, Berlin, Heidelberg, 2000, pp. 559-566.10.1007/3-540-44467-X_51Search in Google Scholar

3. Tsoumakas, G., I. Vlahavas. Distributed Data Mining of Large Classifier Ensembles. – In: Proc. of Companion Volume of the Second Hellenic Conference on Artificial Intelligence, 2002, pp. 249-256.Search in Google Scholar

4. Das, K., K. Bhaduri, H. Kargupta. A Local Asynchronous Distributed Privacy Preserving Feature Selection Algorithm for Large Peer-To-Peer Networks. – Knowledge and Information Systems, Vol. 24, 2010, No 3, pp. 341-367.10.1007/s10115-009-0274-3Search in Google Scholar

5. Sheela, M. A., K. Vijayalakshmi. Partition Based Perturbation for Privacy Preserving Distributed Data Mining. – Cybernetics and Information Technologies, Vol. 17, 2017, No 2, pp. 44-55.10.1515/cait-2017-0015Search in Google Scholar

6. Skillicorn, D. B., S. M. McConnell. Distributed Prediction from Vertically Partitioned Data. – Journal of Parallel and Distributed Computing, Vol. 68, 2008, No 1, pp. 16-36.10.1016/j.jpdc.2007.07.009Search in Google Scholar

7. Rokach, L. Taxonomy for Characterizing Ensemble Methods in Classification Tasks: A Review and Annotated Bibliography. – Computational Statistics & Data Analysis, Vol. 53, 2009, No 12, pp. 4046-4072.10.1016/j.csda.2009.07.017Search in Google Scholar

8. Hasnat, A., A. U. Molla. Feature Selection in Cancer Microarray Data Using Multi-Objective Genetic Algorithm Combined with Correlation Coefficient. – In: Proc. of International Conference on Emerging Technological Trends, IEEE, 2016, pp. 1-6.10.1109/ICETT.2016.7873741Search in Google Scholar

9. Saeys, Y., I. Inza, P. Larrañaga. A Review of Feature Selection Techniques in Bioinformatics. – Bioinformatics, Vol. 23, 2007, No 19, pp. 2507-2517.10.1093/bioinformatics/btm34417720704Search in Google Scholar

10. Ding, C., H. Peng. Minimum Redundancy Feature Selection from Microarray Gene Expression Data. – Journal of Bioinformatics and Computational Biology, Vol. 3, 2005, No 2, pp. 185-205.10.1142/S0219720005001004Search in Google Scholar

11. Satorra, A., P. M. Bentler. A Scaled Difference Chi-Square Test Statistic for Moment Structure Analysis. – Psychometrika, Vol. 66, 2001, No 4, pp. 507-514.10.1007/BF02296192Search in Google Scholar

12. Kononenko, I. Estimating Attributes: Analysis and Extensions of RELIEF. – In: Proc. of European Conference on Machine Learning, 1994, pp. 171-182.10.1007/3-540-57868-4_57Search in Google Scholar

13. Dai, J., Q. Xu. Attribute Selection Based on Information Gain Ratio in Fuzzy Rough Set Theory with Application to Tumor Classification. – Applied Soft Computing, Vol. 13, 2013, No 1, pp. 211-221.10.1016/j.asoc.2012.07.029Search in Google Scholar

14. Sikonja, M. R., I. Kononenko. An Adaptation of Relief for Attribute Estimation on Regression. Machine Learning. – In: Proc. of 14th International Conference on Machine Learning, Nashville, 1997, pp. 296-304.Search in Google Scholar

15. Hall, M. A. Correlation-Based Feature Subset Selection for Machine Learning. – In: Thesis Submitted in Partial Fulfilment of the Requirements of the Degree of Doctor of Philosophy at the University of Waikato, 1998.Search in Google Scholar

16. Dash, M. H. Liu. Consistency-Based Search in Feature Selection. – Artificial Intelligence, Vol. 151, 2003, No 1-2, pp. 155-176.10.1016/S0004-3702(03)00079-1Search in Google Scholar

17. Peng, H., F. Long, C. Ding. Feature Selection Based on Mutual Information Criteria of Max-Dependency, Max-Relevance, and Min-Redundancy. – IEEE Transactions on Pattern Analysis and Machine Intelligence, Vol. 27, 2005, No 8, pp. 1226-1238.10.1109/TPAMI.2005.159Search in Google Scholar

18. Deisy, C., S. Baskar, N. Ramraj, J. S. Koori. P. Jeevanandam. A Novel Information Theoretic-Interact Algorithm (IT-IN) for Feature Selection Using Three Machine Learning Algorithms. – Expert Systems with Applications, Vol. 37, 2010, No 12, pp. 7589-7597.10.1016/j.eswa.2010.04.084Search in Google Scholar

19. Quinlan. J. R. C4.5: Programs for Machine Learning. – In: Elsevier, Machine Learning, Morgan Kaufmann Publishers, 2014.Search in Google Scholar

20. Nielsen, T. D., F. V. Jensen. Bayesian Networks and Decision Graphs. – In: Springer Science and Business Media, 2009.Search in Google Scholar

21. Cherkassky, V., Y. Ma. Practical Selection of SVM Parameters and Noise Estimation for SVM Regression. – Neural Networks, Vol. 17, 2004, No 1, pp. 113-126.10.1016/S0893-6080(03)00169-2Search in Google Scholar

22. Guo, G., H. Wang, D. Bell, Y. Bi, K. Greer. KNN Model-Based Approach in Classification. – In: Proc. of OTM Confederated International Conferences on the Move to Meaningful Internet Systems, Springer, Berlin, Heidelberg, 2003, pp. 986-996.10.1007/978-3-540-39964-3_62Search in Google Scholar

23. Bolón-Canedo, V., N. Sánchez-Maroño, J. Cerviño-Rabuñal. Scaling up Feature Selection: A Distributed Filter Approach. – In: Proc. of Conference of the Spanish Association for Artificial Intelligence, Springer, Berlin, Heidelberg, 2013, pp. 121-130.10.1007/978-3-642-40643-0_13Search in Google Scholar

24. Bolón-Canedo, V., N. Sánchez-Maroño, A. Alonso-Betanzos. A Distributed Feature Selection Approach Based on a Complexity Measure. – In: Proc. of International Work-Conference on Artificial Neural Networks. Springer, Cham, 2015, pp. 15-28.10.1007/978-3-319-19222-2_2Search in Google Scholar

25. Das, K., K. Bhaduri, H. Kargupta. A Local Asynchronous Distributed Privacy Preserving Feature Selection Algorithm for Large Peer-to-Peer Networks. – Knowledge and Information Systems, Vol. 24, 2010, No 3, pp. 341-367.10.1007/s10115-009-0274-3Search in Google Scholar

26. Tsoumakas, G., I. Vlahavas. Distributed Data Mining of Large Classifier Ensembles. – In: Proc. of Companion Volume of the Second Hellenic Conference on Artificial Intelligence. 2002.Search in Google Scholar

27. Peralta, D., S. Del Río, S. Ramírez-Gallego, I. Triguero, J. M. Benitez, F. Herrera. Evolutionary Feature Selection for Big Data Classification: A Mapreduce Approach. – Mathematical Problems in Engineering, Vol. 2015, 2015.10.1155/2015/246139Search in Google Scholar

28. Cohen, S., L. Rokach, O. Maimon. Decision-Tree Instance-Space Decomposition with Grouped Gain-Ratio. – Information Sciences, Vol. 177, 2007, No 17, pp. 3592-3612.10.1016/j.ins.2007.01.016Search in Google Scholar

29. Skillicorn, D. B., M. M. Sabine. Distributed Prediction from Vertically Partitioned Data. – Journal of Parallel and Distributed Computing, Vol. 68, 2008, No 1, pp. 16-36.10.1016/j.jpdc.2007.07.009Search in Google Scholar

30. McConnell, S., D. B. Skillicorn. Building Predictors from Vertically Distributed Data. – In: Proc. of the Conference of the Centre for Advanced Studies on Collaborative Research. IBM Press, 2004, pp. 150-162.Search in Google Scholar

31. Bolón-Canedo, V., N. Sánchez-Marono, J. Cervino-Rabunal. Toward Parallel Feature Selection from Vertically Partitioned Data. – In: Proc. of European Symposium on Artificial Neural Networks, Computational Intelligence and Machine Learning. Bruges, Belgium, 2014, pp. 23-25.Search in Google Scholar

32. Morán-Fernández, L., V. Bolón-Canedo, A. Alonso-Betanzos. Centralized vs. Distributed Feature Selection Methods Based on Data Complexity Measures. – Knowledge-Based Systems, Vol. 117, 2017, pp. 27-45.10.1016/j.knosys.2016.09.022Search in Google Scholar

33. Banerjee, M., S. Chakravarty. Privacy Preserving Feature Selection for Distributed Data Using Virtual Dimension. – In: Proc. of 20th ACM International Conference on Information and Knowledge Management. ACM. 2011.10.1145/2063576.2063946Search in Google Scholar

34. Bache, K., M. Linchman. UCI Machine Learning Repository. – In: University of California, Irvine, School of Information and Computer Sciences. Online; Accessed January 2016. http://archive.ics.uci.edu/ml/Search in Google Scholar

35. University, V. Gene Expression Model Selector. Online. Accessed January 2016. http://www.gems-system.org/Search in Google Scholar

36. Oreski, D., O. Stjepan, K. Bozidar. Effects of Dataset Characteristics on the Performance of Feature Selection Techniques. – Applied Soft Computing, Vol. 52, 2017, pp. 109-119.10.1016/j.asoc.2016.12.023Search in Google Scholar

37. Hall, M., E. Frank, G. Holmes, B. Pfahringer, P. Reutemann, I. H. Witten. The Weka Data Mining Software: An Update. – ACM SIGKDD Explorations Newsletter, Vol. 11, 2009, No 1, pp. 10-18.10.1145/1656274.1656278Search in Google Scholar

38. Song, Q., N. Jingjie, W. Guangtao. A Fast Clustering-Based Feature Subset Selection Algorithm for High-Dimensional Data. – IEEE Transactions on Knowledge and Data Engineering, Vol. 25, 2013, No 1, pp. 1-14.10.1109/TKDE.2011.181Search in Google Scholar

39. Dharmaraj, R. P., J. B. Patil. Malicious URLs Detection Using Decision Tree Classifiers and Majority Voting Technique. – Cybernetics and Information Technologies, Vol. 18, 2018, No 1, pp. 11-29.10.2478/cait-2018-0002Search in Google Scholar

40. Xing, E., M. Jordan, R. Karp. Feature Selection for High-Dimensional Genomic Microarray Data. – In: Proc. of Eighteenth International Conference on Machine Learning, 2001, pp. 601-608.Search in Google Scholar