Dynamical systems are used to model water-resource allocation in Ethiopia, where understanding stability is crucial for sustainable management. The study employs mathematical modelling with dynamical system theory. Assumptions include linear flow rates and constant demand patterns. A key property derived is the asymptotic stability of solutions. A specific example shows that initial conditions significantly influence long-term allocations, necessitating precise forecasting for optimal resource distribution. The research contributes to the theoretical framework by proving convergence in a simplified yet realistic model scenario, offering insights into policy-making for water resources. Further studies should explore broader parameter variations and real-world applications of these models. Dynamical Systems, Stability Analysis, Convergence Proofs, Water-Resource Allocation The analytical core is yₜ=F (xₜ;) with =argmin_L (), and convergence is established under standard smoothness conditions.
Desta et al. (Thu,) studied this question.