Abstract
Of all the domains most pertinent to the application of expert systems technology, engineering is on the top of the list. In fact, the dawn of this new technology saw its application to many engineering problems such as PROSPECTOR for mining exploration. In the same context, DART for the detection and diagnostic of computer failures, was derivative of MYCIN.
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Chen, K. J., Staeh, J. F. and Wu, T. H., “A New Method for Topological Design in Large, Traffic Laden Packet Switched Networks,” Proc. Nineth Data Communications Symposium, ACM SIG-COMM Computer communication Review, Vol. 15, No. 4, pp. 115–121, 1985.
Gerla, M. and Kleinrock, L., “On the Topological Design of Distributed Computer Networks,” IEEE Trans. on communications, Vol. Com-25, No. 1, pp. 48–60, 1977.
Boorstyn, R. R. and Frank, H., “Large-Scale Network Topological Optimization,” IEEE Trans. on communications, Com-25, No. 1, pp. 29–47, 1977.
Hausen-Tropper, E., Hoang, H. H. and Pierre, S., “Approche Système Expert pour la Conception de Réseaux Téléinformatiques de Grande Taille,” Neuvièmes Journées Internationales sur les Systèmes Experts et leurs Applications, Avignon, France, in Intelligence Artificielle et Télécommunications, pp. 134–148, 1989.
Karp, R. M., “Combinatorics, Complexity, and Randomness,” CACM, Vol. 29, No. 2, pp. 97–109, 1986.
Johnson, D. S., Lenstra, J. K. and Rinnooy, A. H. G., “The Complexity of the Network Design Problem,” Networks, Vol. 8, No. 4, pp. 279–285, 1978.
Pierre, S. and Hausen-Tropper, E., “Design Topologique de Réseaux Téléinformatique de Grande Taille: une Nouvelle Approche,” IEEE Montech’86, Montréal, pp. 370–372, 1986.
Pierre, S., Hoang, H. H. and Tropper, E., “An Expert Systems Application in Computer Network Topological Design,” IASTED International Conference on Expert Systems, Theory & Applications, Zurich, Switzerland, pp. 139–142, 1989.
Kleinrock, L. and Kamoun, F., “Optimal Clustering Structures for Hierarchical Topological Design of Large Computer Networks,” Networks, Vol. 10, pp. 221–248, 1980.
Lavia, A. and Manning, E. G., “Perturbations Techniques for Topological Optimization of Computer Networks,” Proceedings of Fourth Data Communications Symposium, 7–9 Oct. 1975, Quebec City, pp. 4–16, 4–24.
Sykes, E. A. and White, C. C., “Specifications of a Knowledge System for Packet-Switched Data Network Topological Design,” Expert Systems in Government Symposium, McLean, VA, pp. 102–110, Oct. 1985.
Fratta, L., Gerla, M. and Kleinrock, L, “the flow Deviation Method: an approach to Store-and-Forward Communication Network Design,” Networks 3, pp. 97–133, 1973.
Fikes, R. and Kehler, T., “The Role of Frame-Based Representation in Reasoning,” CACM, vol. 28, No. 9, pp. 904–920, 1985.
Michalski, R. S., Carbonell, J. G. and Mitchell, T. M., “Machine Learning, An Artificial Intelligence Approach,” Palo Alto, Californie, Tioga Publishing Company, 1983.
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© 1993 Springer-Verlag Berlin Heidelberg
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Pierre, S., Hausen-Tropper, E. (1993). Self-Learning Expert System for Computer Communication Design. In: Tzafestas, S. (eds) Expert Systems in Engineering Applications. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-84048-7_6
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DOI: https://doi.org/10.1007/978-3-642-84048-7_6
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