Sabir, ZulqurnainSalahshour, SoheılRada, Tino BouKassem, ZeinabUmar, MuhammadSalahshour, Soheil2024-09-112024-09-11202401476-92711476-928X10.1016/j.compbiolchem.2024.1081622-s2.0-85200871456https://doi.org/10.1016/j.compbiolchem.2024.108162https://hdl.handle.net/20.500.14517/6217The motive of current investigations is to design a novel radial basis neural network stochastic structure to present the numerical representations of the Zika virus spreading model (ZVSM). The mathematical ZVSM is categorized into humans and vectors based on the susceptible S(q), exposed E(q), infected I(q) and recovered R (q), i.e., SEIR. The stochastic performances are designed using the radial basis activation function, feed forward neural network, twenty-two numbers of neurons along with the optimization of Bayesian regularization in order to solve the ZVSM. A dataset is achieved using the explicit Runge-Kutta scheme, which is used to reduce the mean square error (MSE) based on the process of training for solving the nonlinear ZVSM. The division of the data is categorized into training, which is taken as 78%, while 11 % for both authentication and testing. Three different cases of the nonlinear ZVSM have been taken, while the scheme's correctness is performed through the matching of the results. Furthermore, the reliability of the scheme is observed by applying different performances of regression, MSE, error histograms and state transition.eninfo:eu-repo/semantics/closedAccessZika virusRadial basisBayesian regularizationMean square errorNeural networkNumerical solutionsA novel radial basis neural network for the Zika virus spreading modelArticleQ2Q2112WOS:00129591920000139116703