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Abstract In this article, we study random differential equations with discrete delay with initial condition The uncertainty in the problem is reflected via the outcome ω. The initial condition g(t)… Click to show full abstract
Abstract In this article, we study random differential equations with discrete delay with initial condition The uncertainty in the problem is reflected via the outcome ω. The initial condition g(t) is a stochastic process. The term x(t) is a stochastic process that solves the random differential equation with delay in a probabilistic sense. In our case, we use the random calculus approach. We extend the classical Picard theorem for deterministic ordinary differential equations to calculus for random differential equations with delay, via Banach fixed-point theorem. We also relate solutions with sample-path solutions. Finally, we utilize the theoretical ideas to solve the random autonomous linear differential equation with discrete delay.
Journal Title: Stochastic Analysis and Applications
Year Published: 2019
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