A computational tool for simulation and learning of Fuzzy Cognitive Maps

Gonzalo Nápoles; Isel Grau; Rafael Bello; Maikel Leon; Koen Vahoof; Elpiniki Papageorgiou

doi:10.1109/FUZZ-IEEE.2015.7337859

A computational tool for simulation and learning of Fuzzy Cognitive Maps

Gonzalo Nápoles, Isel Grau, Rafael Bello, Maikel Leon, Koen Vahoof, Elpiniki Papageorgiou

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

13 Citations (Scopus)

Abstract

During the last decade Fuzzy Cognitive Maps (FCM) have become a useful tool for solving unstructured problems. In a few words they could be defined as Recurrent Neural Networks for simulating complex systems, where neurons denote concepts, objects or entities of the investigated system. Normally FCM are entirely designed using the best knowledge of a group of experts in a given domain, so frequently learning algorithms for tuning the model parameters are required. Despite the theoretical advances in such fields, the lack of a suitable computational framework for handling FCM-based systems is still an open problem. This paper introduces a novel tool for designing and simulating FCM which gathers several learning algorithms for adjusting the introduced parameters. More specifically, the framework includes supervised and unsupervised learning algorithms for computing the causal weights, algorithms for optimizing the network topology in large FCM (without losing significant information) and also methods for improving the global convergence on continuous FCM. It should be stated that these algorithms are oriented to prediction tasks, but they could be easily extended to other fields.

Original language	English
Title of host publication	2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE)
Editors	Adnan Yazici, Nikhil R. Pal, Hisao Ishibuchi, Bulent Tutmez, Chin-Teng Lin, Joao M. C. Sousa, Uzay Kaymak, Trevor Martin
Publisher	Institute of Electrical and Electronics Engineers
Number of pages	8
ISBN (Electronic)	978-1-4673-7428-6
DOIs	https://doi.org/10.1109/FUZZ-IEEE.2015.7337859
Publication status	Published - 30 Nov 2015
Externally published	Yes
Event	2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE 2015) - Kadir Has University, Istanbul, Turkey Duration: 2 Aug 2015 → 5 Aug 2015 http://www.fuzzieee2015.org/

Conference

Conference	2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE 2015)
Abbreviated title	FUZZ-IEEE 2015
Country/Territory	Turkey
City	Istanbul
Period	2/08/15 → 5/08/15
Internet address	http://www.fuzzieee2015.org/

Keywords

computational framework
FCM
learning algorithms
modeling
prediction problems

Access to Document

10.1109/FUZZ-IEEE.2015.7337859

Cite this

Nápoles, G., Grau, I., Bello, R., Leon, M., Vahoof, K., & Papageorgiou, E. (2015). A computational tool for simulation and learning of Fuzzy Cognitive Maps. In A. Yazici, N. R. Pal, H. Ishibuchi, B. Tutmez, C.-T. Lin, J. M. C. Sousa, U. Kaymak, & T. Martin (Eds.), 2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE) Article 7337859 Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/FUZZ-IEEE.2015.7337859

Nápoles, Gonzalo ; Grau, Isel ; Bello, Rafael et al. / A computational tool for simulation and learning of Fuzzy Cognitive Maps. 2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE). editor / Adnan Yazici ; Nikhil R. Pal ; Hisao Ishibuchi ; Bulent Tutmez ; Chin-Teng Lin ; Joao M. C. Sousa ; Uzay Kaymak ; Trevor Martin. Institute of Electrical and Electronics Engineers, 2015.

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abstract = "During the last decade Fuzzy Cognitive Maps (FCM) have become a useful tool for solving unstructured problems. In a few words they could be defined as Recurrent Neural Networks for simulating complex systems, where neurons denote concepts, objects or entities of the investigated system. Normally FCM are entirely designed using the best knowledge of a group of experts in a given domain, so frequently learning algorithms for tuning the model parameters are required. Despite the theoretical advances in such fields, the lack of a suitable computational framework for handling FCM-based systems is still an open problem. This paper introduces a novel tool for designing and simulating FCM which gathers several learning algorithms for adjusting the introduced parameters. More specifically, the framework includes supervised and unsupervised learning algorithms for computing the causal weights, algorithms for optimizing the network topology in large FCM (without losing significant information) and also methods for improving the global convergence on continuous FCM. It should be stated that these algorithms are oriented to prediction tasks, but they could be easily extended to other fields.",

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author = "Gonzalo N{\'a}poles and Isel Grau and Rafael Bello and Maikel Leon and Koen Vahoof and Elpiniki Papageorgiou",

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booktitle = "2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE)",

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Nápoles, G, Grau, I, Bello, R, Leon, M, Vahoof, K & Papageorgiou, E 2015, A computational tool for simulation and learning of Fuzzy Cognitive Maps. in A Yazici, NR Pal, H Ishibuchi, B Tutmez, C-T Lin, JMC Sousa, U Kaymak & T Martin (eds), 2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE)., 7337859, Institute of Electrical and Electronics Engineers, 2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE 2015), Istanbul, Turkey, 2/08/15. https://doi.org/10.1109/FUZZ-IEEE.2015.7337859

A computational tool for simulation and learning of Fuzzy Cognitive Maps. / Nápoles, Gonzalo; Grau, Isel; Bello, Rafael et al.
2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE). ed. / Adnan Yazici; Nikhil R. Pal; Hisao Ishibuchi; Bulent Tutmez; Chin-Teng Lin; Joao M. C. Sousa; Uzay Kaymak; Trevor Martin. Institute of Electrical and Electronics Engineers, 2015. 7337859.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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T1 - A computational tool for simulation and learning of Fuzzy Cognitive Maps

AU - Nápoles, Gonzalo

AU - Grau, Isel

AU - Bello, Rafael

AU - Leon, Maikel

AU - Vahoof, Koen

AU - Papageorgiou, Elpiniki

PY - 2015/11/30

Y1 - 2015/11/30

N2 - During the last decade Fuzzy Cognitive Maps (FCM) have become a useful tool for solving unstructured problems. In a few words they could be defined as Recurrent Neural Networks for simulating complex systems, where neurons denote concepts, objects or entities of the investigated system. Normally FCM are entirely designed using the best knowledge of a group of experts in a given domain, so frequently learning algorithms for tuning the model parameters are required. Despite the theoretical advances in such fields, the lack of a suitable computational framework for handling FCM-based systems is still an open problem. This paper introduces a novel tool for designing and simulating FCM which gathers several learning algorithms for adjusting the introduced parameters. More specifically, the framework includes supervised and unsupervised learning algorithms for computing the causal weights, algorithms for optimizing the network topology in large FCM (without losing significant information) and also methods for improving the global convergence on continuous FCM. It should be stated that these algorithms are oriented to prediction tasks, but they could be easily extended to other fields.

AB - During the last decade Fuzzy Cognitive Maps (FCM) have become a useful tool for solving unstructured problems. In a few words they could be defined as Recurrent Neural Networks for simulating complex systems, where neurons denote concepts, objects or entities of the investigated system. Normally FCM are entirely designed using the best knowledge of a group of experts in a given domain, so frequently learning algorithms for tuning the model parameters are required. Despite the theoretical advances in such fields, the lack of a suitable computational framework for handling FCM-based systems is still an open problem. This paper introduces a novel tool for designing and simulating FCM which gathers several learning algorithms for adjusting the introduced parameters. More specifically, the framework includes supervised and unsupervised learning algorithms for computing the causal weights, algorithms for optimizing the network topology in large FCM (without losing significant information) and also methods for improving the global convergence on continuous FCM. It should be stated that these algorithms are oriented to prediction tasks, but they could be easily extended to other fields.

KW - computational framework

KW - FCM

KW - learning algorithms

KW - modeling

KW - prediction problems

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M3 - Conference contribution

BT - 2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE)

A2 - Yazici, Adnan

A2 - Pal, Nikhil R.

A2 - Ishibuchi, Hisao

A2 - Tutmez, Bulent

A2 - Lin, Chin-Teng

A2 - Sousa, Joao M. C.

A2 - Kaymak, Uzay

A2 - Martin, Trevor

PB - Institute of Electrical and Electronics Engineers

T2 - 2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE 2015)

Y2 - 2 August 2015 through 5 August 2015

ER -

Nápoles G, Grau I, Bello R, Leon M, Vahoof K, Papageorgiou E. A computational tool for simulation and learning of Fuzzy Cognitive Maps. In Yazici A, Pal NR, Ishibuchi H, Tutmez B, Lin CT, Sousa JMC, Kaymak U, Martin T, editors, 2015 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE). Institute of Electrical and Electronics Engineers. 2015. 7337859 doi: 10.1109/FUZZ-IEEE.2015.7337859

A computational tool for simulation and learning of Fuzzy Cognitive Maps

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Keywords

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