RT Journal Article
T1 JFML: A Java Library to Design Fuzzy Logic Systems According to the IEEE Std 1855-2016
A1 Soto Hidalgo, José Manuel
A1 Alonso Moral, José María
A1 Acampora, Giovanni
A1 Alcalá Fernández, Jesús
K1 Fuzzy logic
K1 Fuzzy logic systems
K1 IEEE Standards
K1 IEEE std 1855-2016
K1 Libraries
K1 Fuzzy systems
K1 Fuzzy markup language
K1 Software
K1 Open source software
K1 Java
K1 IEC61131-7
AB Fuzzy logic systems are useful for solving problems in many application fields. However, these systems are usually stored in specific formats and researchers need to rewrite them to use in new problems. Recently, the IEEE Computational Intelligence Society has sponsored the publication of the IEEE Standard 1855-2016 to provide a unified and well-defined representation of fuzzy systems for problems of classification, regression, and control. The main aim of this standard is to facilitate the exchange of fuzzy systems across different programming systems in order to avoid the need to rewrite available pieces of code or to develop new software tools to replicate functionalities that are already provided by other software. In order to make the standard operative and useful for the research community, this paper presents JFML, an open source Java library that offers a complete implementation of the new IEEE standard and capability to import/export fuzzy systems in accordance with other standards and software. Moreover, the new library has associated a Website with complementary material, documentation, and examples in order to facilitate its use. In this paper, we present three case studies that illustrate the potential of JFML and the advantages of exchanging fuzzy systems among available software
PB IEEE
YR 2018
FD 2018
LK http://hdl.handle.net/10347/17724
UL http://hdl.handle.net/10347/17724
LA eng
NO Soto-Hidalgo, J., Alonso, J., Acampora, G., & Alcala-Fdez, J. (2018). JFML: A Java Library to Design Fuzzy Logic Systems According to the IEEE Std 1855-2016. IEEE Access, 1-1. doi: 10.1109/access.2018.2872777
NO This work was supported in part by the XXII Own Research Program (2017) of the University of Córdoba, in part by the Spanish Ministryof Economy and Competitiveness under Grants RYC-2016-19802 (Ramón y Cajal contract), TIN2017-84796-C2-1-R,TIN2014-56633-C3-3-R, TIN2014-57251-P, and TIN2015-68454-R, in part by the Andalusian Government under Grant P11-TIC-7765,in part by the Xunta de Galicia (accreditation 2016–2019), and in part by the European Union (European Regional Development Fund)
DS Minerva
RD 25 abr 2026