On Cauchy problemsfor fuzzydifferential equations.
Georgiou, D.N., Kougias, I.E. (2004)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Georgiou, D.N., Kougias, I.E. (2004)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Balachandran, K., Kanagarajan, K. (2006)
Journal of Applied Mathematics and Stochastic Analysis
Similarity:
Balachandran, K., Prakash, P. (2004)
Journal of Applied Mathematics and Stochastic Analysis
Similarity:
Park, Jong Yeoul, Han, Hyo Keun (1999)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Kwun, Young Chel, Kim, Jeong Soon, Park, Min Ji, Park, Jin Han (2009)
Advances in Difference Equations [electronic only]
Similarity:
Georgiou, D.N., Kougias, I.E. (2002)
International Journal of Mathematics and Mathematical Sciences
Similarity:
Miguel Delgado, José Luis Verdegay, M. Amparo Vila (1994)
Mathware and Soft Computing
Similarity:
Two different definitions of a Fuzzy number may be found in the literature. Both fulfill Goguen's Fuzzification Principle but are different in nature because of their different starting points. The first one was introduced by Zadeh and has well suited arithmetic and algebraic properties. The second one, introduced by Gantner, Steinlage and Warren, is a good and formal representation of the concept from a topological point of view. The objective of this paper is...
A. N. Melikhov, L. S. Bershtein, S. Ya. Korovin (1992)
Kybernetika
Similarity:
Adam Grabowski (2014)
Formalized Mathematics
Similarity:
In this article, we continue the development of the theory of fuzzy sets [23], started with [14] with the future aim to provide the formalization of fuzzy numbers [8] in terms reflecting the current state of the Mizar Mathematical Library. Note that in order to have more usable approach in [14], we revised that article as well; some of the ideas were described in [12]. As we can actually understand fuzzy sets just as their membership functions (via the equality of membership function...