Information Technology Reference
In-Depth Information
6. Graham, P.: A plan for spam. Available on: http://paulgraham.com/spam.html
(2003)
7. Drucker, H., Vapnik, V., Wu, D.: Support vector machines for spam categorization.
IEEE Transactions on Neural Networks
10
(1999) 1048-1054
8. Carreras, X., Marquez, L.: Boosting trees for anti-spam email filtering. In: Proceed-
ings of the 4th International Conference on Recent Advances in Natural Language
Processing, Tzigov Chark, BG (2001)
9. Androutsopoulos, I., Paliouras, G., Karkaletsis, V., Sakkis, G., Spyropoulos, C.D.,
Stamatopoulos, P.: Learning to filter spam e-mail: A comparison of a na ıve
Bayesian and a memory-based approach. In: Proceedings of the Workshop on
Machine Learning and Textual Information Access, 4th European Conference on
Principles and Practice of Knowledge Discovery in Databases. (2000) 1-13
10. Oda, T., White, T.: Immunity from spam: An analysis of an artificial immune sys-
tem for junk email detection. In: Proceedings of the 4th International Conference
on Artificial Immune Systems (ICARIS). (2005) 276-289
11. Oda, T., White, T.: Developing an immunity to spam. In: Genetic and Evolutionary
Computation - GECCO 2003. Genetic and Evolutionary Computation Conference,
Chicago, IL, USA. Lecture Notes in Computer Science, Vol. 2723, Springer. (2003)
231-242
12. Oda, T., White, T.: Increasing the accuracy of a spam-detecting artificial immune
system. In: Proceedings of the Congress on Evolutionary Computation (CEC 2003),
Canberra, Australia. (2003) 390-396
13. Secker, A., Freitas, A.A., Timmis, J.: AISEC: An artificial immune system for e-
mail classification. In: Proceedings of the Congress on Evolutionary Computation.
(2003) 131-139
14. Knidel, H., de Castro, L.N., Von Zuben, F.J.: A supervised constructive neuro-
immune network for pattern classification. In: IJCNN'06: Proceedings of the 2006
Conference on International Joint Conference on Neural Networks. (2006)
15. de Castro, L.N., Von Zuben, F.J., de Deus Jr, G.A.: The construction of a Boolean
competitive neural network using ideas from immunology.
Neurocomputing
50
(2003) 51-85
16. Knidel, H., de Castro, L.N., Von Zuben, F.J.: RABNET: a real-valued antibody
network for data clustering. In: GECCO '05: Proceedings of the 2005 conference on
Genetic and evolutionary computation, New York, NY, USA, ACM Press (2005)
371-372
17. Segel, L.A., Perelson, A.S.: Computations in shape space: a new approach to
immune network theory. In Perelson, A., ed.: Theoretical Immunology. Volume 2
of SFI Series on Complexity. Addison Wesley (1988) 321-343
18. Kohonen, T.: Self-organization and associative memory: 3rd edition. Springer-
Verlag New York, Inc., New York, NY, USA (1989)
19. Kohonen, T.: Self-organizing maps. Springer-Verlag, Berlin (2000)
20. Zuchini, M.H.: Aplicacoes de mapas auto-organizaveis em mineracao de dados e
recuperacao de informacao. Master's thesis, UNICAMP (2003)
21. Yang, Y., Pedersen, J.O.: A comparative study on feature selection in text cate-
gorization. In Fisher, D.H., ed.: Proceedings of ICML-97, 14th International Con-
ference on Machine Learning, Nashville, US, Morgan Kaufmann Publishers, San
Francisco, US (1997) 412-420
22. Zhang, L., Zhu, J., Yao, T.: An evaluation of statistical spam filtering techniques.
ACM Transactions on Asian Language Information Processing (TALIP)
3
(2004)
243-269