Lotfi Zadeh: el genio creador de la lógica borrosa

Autores/as

Palabras clave:

Zadeh, conjuntos borrosos, lógica borrosa, teoría generalizada de la incertidumbre, número Z, difuso

Resumen

Lotfi Asker Zadeh: matemático, ingeniero electricista, informático y profesor Iraní-estadounidense de la Universidad de California en Berkeley. Creó la teoría de conjuntos borrosos y la lógica borrosa. Zadeh es uno de los más notables genios de la época actual. Entre sus otras creaciones están el método de la transformada Z, el enfoque de la teoría de sistemas lineales basado en estados, variables lingüísticas, control borroso, razonamiento aproximado, teoría de la posibilidad, “soft computing”, computación con palabras, teoría computacional de las percepciones, teoría de la granulación de la información borrosa, teoría generalizada de la incertidumbre, y números Z.

Descargas

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Biografía del autor/a

Carlos Lameda Montero, Universidad Nacional Experimental Politécnica Antonio José de Sucre, Venezuela

Ingeniero Electrónico. Magister en Ingeniería Eléctrica. Magister en Ciencias de la Computación. Doctor en Ciencias de la Ingeniería mención Productividad. Profesor-investigador de la Universidad Nacional Experimental Politécnica “Antonio José de Sucre” (UNEXPO), Barquisimeto, Venezuela. Correo: clameda@unexpo.edu.ve

Ennodio Torres Cruz, Universidad Nacional Experimental Politécnica Antonio José de Sucre, Venezuela

Profesor de Matemáticas y Física. Máster en Ciencias Matemáticas. Doctor en Ciencias Matemáticas. Profesor Titular Jubilado de la Universidad Centroccidental Lisandro Alvarado (UCLA). Profesor y Tutor del Doctorado en Ciencias de la Ingeniería Mención Productividad de la Universidad Nacional Experimental Politécnica “Antonio José de Sucre”(UNEXPO). Correo: ejtorresc.doctorado@unexpo.edu.ve

Citas

[1] L. Zadeh. Fuzzy logic - a personal perspective. Fuzzy Sets and Systems, 281:4–20, 2015. OnLine.

[2] L. Zadeh. My life and work - a retrospective view. Applied and Computational Mathematics, 10(1):4–9, 2011. OnLine.

[3] R. Seising. Obituary for a visionary scientist: Lotfi Aliasker Zadeh (1921-2017). Mathware and Soft Computing, 2(2):6–15, 2017. OnLine.

[4] F. Zadeh. My life and travels with the father of fuzzy logic. TSI Press, Alburquerque, 1998. OnLine.

[5] D. Pospelov; V. Stefanuk; A. Averkin; I. Batyrshin; V. Tarassov; N. Yarushkina; A. Yazenin. Remembering Lofti Zadeh. In Open Semantic Technologies for Intelligent Systems, OSTIS Conference, pages 27–38, 2018. OnLine.

[6] L. Zadeh; J. Ragazzini. Probability criterion for the design of servomechanisms. Journal of Applied Physics, 20:141–144, 1949. OnLine.

[7] L. Zadeh; L. Ragazzini. An extension of Wiener’s theory of prediction. Journal of Applied Physics, 21:645–655, 1950. OnLine.

[8] J. Ragazzini; L. Zadeh. The analysis of sampled-data systems. Transactions of the American Institute of Electrical Engineers, 71(II):225–234, 1952. OnLine.

[9] L. Zadeh and Ch. DeSoer. Linear system theory: the state space approach. McGraw - Hill Book Company, New York, 1963.

[10] L. Zadeh. Fuzzy sets. Information and Control, 8(3):338–353, 1965. OnLine.

[11] S. Kleene. Mathematical Logic. John Wiley & Sons, Inc., New York, USA, 1967.

[12] J. Lukasiewicz. O logice trójwartosciowej. Ruch filozoficzny, V:169–171, 1920.

[13] L. Zadeh. Probability measures of fuzzy events. Journal of Mathematical Analysis and Applications, 23:421–427, 1968. OnLine.

[14] L. Zadeh. Outline of a new approach to the analysis of complex systems and decision processes. IEEE Transactions on Systems, Man, and Cybernetics, 3:28–44, 1973. OnLine.

[15] L. Zadeh. The concept of a linguistic variable and its application to approximate reasoning-I. Information Sciences, 8(1975):199–251, 1975.

[16] E. Mamdani; S. Assilian. An experiment in linguistic synthesis with a fuzzy logic controller. International Journal of Man-Machine Studies, 7:1–13, 1975. OnLine.

[17] L. Zadeh. Fuzzy logic and approximate reasoning. Synthese, 30(3):407–428, 1975. OnLine.

[18] L. Zadeh. PRUF-in meaning representation language for natural languages. International Journal of Man-Machine Studies, 10:395–460, 1978. OnLine.

[19] L. Zadeh. Fuzzy sets as a basis for a theory of possibility. Fuzzy Sets and Systems, 1:3–28, 1978. OnLine.

[20] L. Zadeh. The role of fuzzy logic in the management of uncertainty in expert systems. Fuzzy Sets and Systems, 11:199–227, 1983. OnLine.

[21] L. Zadeh. Fuzzy logic, neural networks and soft computing. Communications of the ACM, 37(3):77–84, 1994. OnLine.

[22] L. Zadeh. Soft computing and fuzzy logic. IEEE Software, 11(6):48–58, 1994. OnLine.

[23] L. Zadeh. Fuzzy logic = computing with words. IEEE Transactions on Fuzzy Systems, 4(2):103–111, 1996. OnLine.

[24] L. Zadeh. Toward a theory of fuzzy information granulation and its centrality in human reasoning and fuzzy logic. Fuzzy Sets and Systems, 90:111–127, 1997. OnLine.

[25] L. Zadeh. Toward a perception-based theory of probabilistic reasoning with imprecise probabilities. Journal of Statistical Planning and Inference, 105:233–264, 2002. OnLine.

[26] L. Zadeh. Toward a generalized theory of uncertainty (GTU) - an outline. Information Sciences, 172:1–40, 2005. OnLine.

[27] L. Zadeh. Generalized theory of uncertainty (GTU) - principal concepts and ideas. Computational Statistics & Data Analysis, 51:15–46, 2006. OnLine.

[28] L. Zadeh. Is there a need for fuzzy logic? Information Sciences, 178:2751–2779, 2008. OnLine.

[29] L. Zadeh. A note on Z-numbers. Information Sciences, 181(14):2923–2932, 2011. Disponible: OnLine.

[30] M. Jamshdi; T. Kailath; V. Kreinovitch; B. Tadayon; S. Tadayon; J. Tien; R. Alieve; Z. Pedrycz; L. Koczy; R. Rudas; A. Nolan; T. Yamakawa; G. Bekey; M. Akbarzadeh-T. Celebrating the life of Lotfi A. Zadeh. IEEE Systems, Man, & Cybernetics Magazine, July:42–55, 2018. OnLine.

[31] L. Zadeh. The information principle. Information Sciences, 294:540–549, 2015. OnLine.

[32] L. Zadeh. Stratification, target set reachability, and incremental enlargement principle. Information Sciences, 354:131–139, 2016. OnLine.

[33] A. Kumar. A tribute to Prof. Lotfi A. Zadeh. Journal of Information & Knowledge Management, 16(4):1–5, 2017. OnLine.

[34] P. Bonissone. Obituary for Lotfi A. Zadeh. IEEE Computational Intelligence Magazine, February:13–22, 2018. OnLine.

Publicado

2018-11-05

Cómo citar

[1]
C. Lameda Montero y E. Torres Cruz, «Lotfi Zadeh: el genio creador de la lógica borrosa», Publ.Cienc.Tecnol, vol. 12, n.º 2, pp. 127-133, nov. 2018.