论文信息 - A novel graph computation technique for multi-dimensional curve fitting

A novel graph computation technique for multi-dimensional curve fitting

Curve-fitting problems are widely solved using numerical and soft techniques. In particular, artificial neural networks (ANN) are used to approximate arbitrary input–output relationships in the form of tuned edge weights. Moreover, using semantic networks such as fuzzy cognitive map (FCM), single graph nodes could be directly associated with their actual grey scales rather than binary values as in ANN. This article examines a novel methodology for automatic construction of FCMs for function approximation. The main contribution is the introduction of nested-FCM structure for multi-variable curve fitting. There are step-by-step example cases along with the obtained results to serve as a guide to the new methods being introduced. It is shown that nested FCM derives relationship models of multiple variables using any conventional weight training technique with minimal computation effort. Issues about computational cost and accuracy are also discussed along with future direction of the research.

[1] Omid Motlagh. An FCM-based Design for Balancing of Legged Robots , 2011 .

[2] Weria Khaksar,et al. Sampling-Based Tabu Search Approach for Online Path Planning , 2012, Adv. Robotics.

[3] Napsiah Ismail,et al. An expert fuzzy cognitive map for reactive navigation of mobile robots , 2012, Fuzzy Sets Syst..

[4] Napsiah Ismail,et al. A Novel GA-FCM Strategy for Motion Learning and Prediction: Application in Wireless Tracking of Intelligent Subjects , 2012 .

[5] Bart Kosko,et al. Fuzzy Engineering , 1996 .

[6] M. Aurada,et al. Convergence of adaptive BEM for some mixed boundary value problem , 2012, Applied numerical mathematics : transactions of IMACS.

[7] Witold Pedrycz,et al. Genetic learning of fuzzy cognitive maps , 2005, Fuzzy Sets Syst..

[8] Jose L. Salmeron,et al. Learning Fuzzy Grey Cognitive Maps using Nonlinear Hebbian-based approach , 2012, Int. J. Approx. Reason..

[9] W. Khaksar,et al. An agile FCM for real-time modeling of dynamic and real-life systems , 2015, Evol. Syst..

[10] Jeffrey S. Ovall,et al. An efficient, reliable and robust error estimator for elliptic problems in R3 , 2011 .

[11] Napsiah Ismail,et al. AN ALTERNATIVE APPROACH TO FCM ACTIVATION FOR MODELING DYNAMIC SYSTEMS , 2012, Appl. Artif. Intell..

[12] Stefano Giani,et al. Benchmark results for testing adaptive finite element eigenvalue procedures , 2012 .