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On the Development and Performance Evaluation of Improved Radial Basis Function Neural Networks

Sashmita Panda, Ganapati Panda

2021IEEE Transactions on Systems Man and Cybernetics Systems37 citationsDOI

Abstract

This article deals with the development of four modified radial basis function neural network (RBFNN) models. The corresponding learning algorithms associated with the updating of internal parameters of the models are derived. The conventional inputs are used in the first and second modified RBFNN models (models 3 and 4) whereas exponential nonlinear inputs are used in the fifth and sixth RBFNN models to provide additional nonlinearity for achieving a better solution of nonlinear classification, and direct and inverse modeling problems. To assess and compare the performance potentiality of the proposed four new RBFNN models, one classification problem, one direct modeling problem, and one inverse modeling problem are solved through computer simulation-based experiments. For comparison and to assign the performance rank of each of the four modified RBFNN models, two conventional and commonly used RBFNN models (models 1 and 2) are also simulated. To access the performance of different models during the training phase of Examples 1 and 2, the root mean-square error (RMSE) value, mean absolute deviation (MAD), and the number of iterations required to achieve convergence are obtained. For the third example, only the first two performance measures are found. During the testing or validation phase, the output responses of the different models of Example 2 are compared with the desired response analysis. For Example 3, the bit-error rate (BER) plots are compared. The observation of all the results demonstrates consistent ranks of all models in the case of all three examples. It is, in general, found that the ranks of the models 1–6 are 6, 4, 3, 2, 5, and 1, respectively. In essence, in terms of all performance measures, model M-6 with an exponential version of inputs with weights on both layers occupies the first position whereas model M-4 with conventional inputs as the second position.

Topics & Concepts

Mean squared errorArtificial neural networkNonlinear systemConvergence (economics)Computer scienceInverseExponential functionBasis (linear algebra)Function (biology)Radial basis functionAlgorithmRank (graph theory)Applied mathematicsMathematicsArtificial intelligenceStatisticsEconomic growthGeometryEvolutionary biologyMathematical analysisPhysicsBiologyQuantum mechanicsCombinatoricsEconomicsNeural Networks and ApplicationsFuzzy Logic and Control SystemsAdvanced Sensor and Control Systems
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