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A Pair of Three-Step Hybrid Block Methods for the Solutions of Linear and Nonlinear First-Order Systems

Joshua Sunday, C. Chibuisi, Ezekiel Ọlaoluwa Ọmọle, John B. Gwong

2022European Journal of Mathematics and Statistics18 citationsDOIOpen Access PDF

Abstract

In this research paper, a pair of three-step hybrid block methods is derived for the solutions of linear and nonlinear first-order systems. The derivation is carried out with the aid of collocation and interpolation technique and the adoption of power series as basis function. The first and second three-step hybrid block methods are derived by incorporating a single and double off-grid point(s) respectively within the three-step integration interval. The methods derived were then applied on some linear and nonlinear first-order systems to test their accuracy and efficiency. The results obtained show that the three-step hybrid block method with two off-grid points performed better than the three-step hybrid block method with one off-grid point. It was also clear from the results obtained that the two methods derived performed better than the existing methods with which we compared our results. We further analyzed the basic properties of the methods derived. These properties include zero-stability, consistence, convergence and region of absolute stability.

Topics & Concepts

Block (permutation group theory)Convergence (economics)Nonlinear systemCollocation (remote sensing)Interpolation (computer graphics)MathematicsStability (learning theory)Series (stratigraphy)GridLinear multistep methodApplied mathematicsAlgorithmComputer scienceMathematical optimizationMathematical analysisDifferential equationGeometryPaleontologyMachine learningQuantum mechanicsPhysicsBiologyOrdinary differential equationEconomic growthAnimationComputer graphics (images)EconomicsDifferential algebraic equationNumerical methods for differential equationsAdvanced Control Systems DesignFractional Differential Equations Solutions
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