Evolutionary Tuning of Combined Multiple Models (original) (raw)

References

1. Domingos, P.: Knowledge acquisition from examples via multiple models. In: Proc. of the 14th International Conference on Machine Learning, pp. 98–106. Morgan Kaufmann, San Francisco (1997)
   Google Scholar
2. Domingos, P.: Knowledge Discovery Via Multiple Models. Intelligent Data Analysis 2(1-4), 187–202 (1998)
   Article Google Scholar
3. Estruch, V., Ferri, C., Hernández-Orallo, J., Ramírez-Quintana, M.J.: Simple Mimetic Classifiers. In: Proc. IAPR International Conference on Machine Learning and Data Mining (MLDM 2003), pp. 156–171 (2003)
   Google Scholar
4. Cohn, D., Atlas, L., Ladner, R.: Improving generalization with active learning. Machine Learning 15, 201–221 (1994)
   Google Scholar
5. Craven, M.W., Shavlik, J.W.: Extracting comprehensible concept representations from trained neural networks. In: Working Notes on the IJCAI 1995 Workshop on Comprehensibility in Machine Learning, Montreal, Canada, pp. 61–75 (1995)
   Google Scholar
6. Schwefel, H.P.: Kybernetische Evolution als Strategie der exprimentellen Forschung in der Strömungstechnik, Master’s thesis, Technical University of Berlin (1965)
   Google Scholar
7. Holland, J.H.: Adaptation in Natural and Artificial Systems. University of Michigan Press, Ann Arbor (1975)
   Google Scholar
8. Koza, J.R.: Genetic Programming: On the Programming of Computers by Means of Natural Selection. MIT Press, Cambridge (1992)
   MATH Google Scholar
9. Li, J., Liu, H.: Ensembles of cascading trees. In: Proc. IEEE International Conference on Data Mining, p. 585. IEEE Computer Society, Melbourne (2003)
   Google Scholar
10. Witten, I.H., Frank, E.: Data Mining: Practical machine learning tools with Java implementations. Morgan Kaufmann, San Francisco (1999)
    Google Scholar
11. Freund, Y., Schapire, R.E.: Experiments with a New Boosting Algorithm. In: Proc. of the Thirteenth International Conference on Machine Learning, pp. 148–156. Morgan Kaufmann, San Francisco (1996)
    Google Scholar
12. Golub, T.R., Slonim, D.K., Tamayo, P., Huard, C., Gaasenbeek, M., Mesirov, J.P., Coller, H., Loh, M.L., Downing, J.R., Caligiuri, M.A., Bloomfield, C.D., Lander, E.S.: Molecular classification of cancer: Class discovery and class prediction by gene expression monitoring. Science 286(5439), 531–537 (1999)
    Article Google Scholar
13. van Veer, L.J., Dai, H., van De Vijver, M.J., He, Y.D., Hart, A.A., Mao, M., Peterse, H.L., Kooy, K.D., Marton, M.J., Witteveen, A.T., Schreiber, G.J., Kerkhoven, R.M., Roberts, C., Linsley, P.S., Bernards, R., Friend, S.H.: Gene expression profiling predicts clinical outcome of breast cancer. Nature 415, 530–536 (2002)
    Article Google Scholar
14. Gordon, G.J., Jensen, R.V., Hsiao, L.-L., Gullans, S.R., Blumenstock, J.E., Ramaswami, S., Richards, W.G., Sugarbaker, D.J., Bueno, R.: Translation of microarray data into clinically relevant cancer diagnostic tests using gene expression ratios in lung cancer and mesothelioma. Cancer Research 62, 4963–4967 (2002)
    Google Scholar
15. Armstrong, S.A., Staunton, J.E., Silverman, L.B., Pieters, R., den Boer, M.L., Minden, M.D., Sallan, S.E., Lander, E.S., Golub, T.R., Korsmeyer, S.J.: MLL translocations specify a distinct gene expression profile that distinguishes a unique leukaemia. Nat. Genet. 30(1), 41–47 (2002)
    Article Google Scholar
16. Singh, D., et al.: Gene expression correlates of clinical prostate cancer behavior. Cancer Cell 1, 203–209 (2002)
    Article Google Scholar
17. Stiglic, G., Kokol, P.: Knowledge extraction from microarray datasets using combined multiple models. In: Proc. IEEE International Conference on Data Mining Workshop on Foundation of semantic oriented data and web mining, Houston, Texas, pp. 75–80 (2005)
    Google Scholar

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