Profesor titular de Universidad – Professor

Juan Carlos Díaz Moreno received the degree in mathematics in 1989 from the University of Seville, Spain, and the Ph.D. degree in mathematics in 2016 from the University of Cádiz, Spain. He is currently Professor at the Department of Mathematics, University of Cádiz, Spain. He is also a researcher in the fields of fuzzy logic, analysis of formal concepts, fuzzy relation equations, mathematical morphology and a member of the research group «Análisis Teórico y numérico de modelos de las ciencias experimentales».

ORCID: 0000-0001-7673-2046.

ResearchGate

Organization of international conferences:

• International Conference on Computational and Mathematical Methods in Science and Engineering (CMMSE 2014).
• XXIV Congress on Differential Equations and Applications / XIV Congress on Applied Mathematics (XXIV CEDYA / XIV CMA), 2015.
• 7th European Symposium on Computacional Intelligence and Mathematics (ESCIM 2015).
• International Conference on Computational and Mathematical Methods in Science and Engineering (CMMSE 2015).
• International Conference on Computational and Mathematical Methods in Science and Engineering (CMMSE 2014).
• 8th European Symposium on Computacional Intelligence and Mathematics (ESCIM 2016).
• 9th European Symposium on Computacional Intelligence and Mathematics (ESCIM 2016).
• 17th International Conference on Information Processing and Management of Uncertainty in Knowledge-Based Systems, 2018.

Projects:

• Title:  HARMONIC: Herramientas formAles difusas para RazonaMientO No canónICo. Ref. TIN2016-76653-P. Funded by: Ministerio de Economía y Competitividad. From 30/12/16 to 29/12/19.
• Title: FOREST: FOrmal Reasoning for SustainabiliTy problems.  Principal researcher: Jesús Medina Moreno.  Funded by: Ministerio de Economía y Competitividad. Reference: TIN2012-39353-C04-04. From 2013 to 2015.
• Title: FEAST: Foundations and Extensions of  Answer Set programming Technology     Principal researcher: Jesús Medina Moreno. Funded by: Ministerio de Ciencia e Innovación. Reference: TIN2009-14562-C05-03. From 2009 to 2012.
• Title: Fundamentos matemáticos para el razonamiento no canónico. Principal researcher: Jesús Medina Moreno. Funded by: Collaboration agreement with the University of Malaga, in relation to the Excellence Project of the Andalusian Government P09-FQM-5233- From 2010 to 2014.
• Title:  Reconocimiento y evaluación rápida de la actividad volcánica de Decepción. Principal researcher: Manuel Berrocoso Domínguez. Funded by: Ministerio de Ciencia y Tecnología. From 1999 to 2001.

Contracts:

• Proyecto de BIG DATA en el CBC. Company: AIRBUS Defense & Space. Principal researcher: Fco. Javier Pérez Fernández. From 24/04/2017 to 15/07/2018.
• Aplicación de técnicas difusas para optimizar la producción de cultivos. Company: Cultitecno Asesores S.L. Principal researcher: Jesús Medina Moreno. From 20/09/2012 to 30/09/2013.
• Optimización en recogida y tratamiento de datos agrícolas utilizando técnicas difusas. Company: Cultitecno Asesores S.L. Principal researcher: Jesús Medina Moreno. From 1/10/2014 to 31/12/2015.

Relevant papers:

• C. Rubio-Manzano, D. Alfonso-Robaina, J. C. Díaz-Moreno, A. Malleuve-Martínez, Jesús Medina. A novel cause-effect variable analysis in enterprise architecture by fuzzy logic techniques. International Journal of Computational Intelligence Systems. Accepted, 2020.
• C. Alcalde, A. Burusco, J.C. Díaz, Jesus Medina. Fuzzy concept lattices and fuzzy relation equations in the retrieval processing of images and signals. International Journal of Uncertainty, Fuzziness and Knowledge-Based Systems, 25: 99-.
• María Eugenia Cornejo, Juan Carlos Díaz-Moreno, Jesús Medina. Multi-adjoint Relation Equations: A Decision Support System for Fuzzy Logic. International Journal of Intelligent Systems 32(8), pp. 778-800, 2017. doi: 10.1002/int.21889. Q1.
• J.C. Díaz, J. Medina, E. Turunen. Minimal solutions of general fuzzy relation equations on linear carriers. An algebraic characterization. Fuzzy Sets and Systems, 311:112-123,   2017. DOI: 10.1016/j.fss.2016.02.004. Q1
• J.C. Díaz-Moreno, J. Medina and M. Ojeda-Aciego,  On basic conditions to generate multi-adjoint concept lattices via Galois connections. Int. J. General Systems. 2014, 149-161.
• J.C. Díaz-Moreno and J. Medina. Using concept lattice theory to obtain the set of solutions of multi-adjoint relation equations. Information Sciences, 266(0):218-225, 2014. Q1.
• J.C. Díaz and J. Medina. Multi-adjoint relation equations: Definition, properties and solutions using concept lattices. Information Sciences, 253:100-109, 2013. Q1.
•  J.C. Díaz and J. Medina. Solving systems of fuzzy  relation equations by fuzzy property-oriented concepts. Information Sciences, 222:405-412, 2013. Q1.