TY - EJOU AU - Sabir, Zulqurnain AU - Manuel, Sánchez-Chero AU - Raja, Muhammad Asif Zahoor AU - Gilder-Cieza–Altamirano, AU - Seminario-Morales, María-Verónica AU - Arquímedes, Fernández Vásquez José AU - Nazario, Purihuamán Leonardo Celso AU - Botmart, Thongchai AU - Weera, Wajaree TI - Stochastic Computational Heuristic for the Fractional Biological Model Based on Leptospirosis T2 - Computers, Materials \& Continua PY - 2023 VL - 74 IS - 2 SN - 1546-2226 AB - The purpose of these investigations is to find the numerical outcomes of the fractional kind of biological system based on Leptospirosis by exploiting the strength of artificial neural networks aided by scale conjugate gradient, called ANNs-SCG. The fractional derivatives have been applied to get more reliable performances of the system. The mathematical form of the biological Leptospirosis system is divided into five categories, and the numerical performances of each model class will be provided by using the ANNs-SCG. The exactness of the ANNs-SCG is performed using the comparison of the reference and obtained results. The reference solutions have been obtained by using the Adams numerical scheme. For these investigations, the data selection is performed at 82% for training, while the statics for both testing and authentication is selected as 9%. The procedures based on the recurrence, mean square error, error histograms, regression, state transitions, and correlation will be accomplished to validate the fitness, accuracy, and reliability of the ANNs-SCG scheme. KW - Fractional leptospirosis; biological model; artificial neural networks; scale conjugate gradient; numerical performances DO - 10.32604/cmc.2023.033352