{ "id": "2402.11974", "version": "v1", "published": "2024-02-19T09:19:07.000Z", "updated": "2024-02-19T09:19:07.000Z", "title": "Global stability and optimal control in a single-strain dengue model with fractional-order transmission and recovery process", "authors": [ "Tahajuddin Sk", "Kaushik Bal", "Tridip Sardar" ], "categories": [ "math.DS", "math.OC" ], "abstract": "In this manuscript, we develop a novel single-strain dengue model with fractional-order transmission and recovery from a stochastic process. A fractional derivative that appeared in the disease transmission and recovery processes is known as a tempered fractional (TF) derivative. We showed that if a function satisfying certain conditions, then the TF derivative of that function is proportional to the function itself. By utilizing this result, we investigated the local and global stability of various equilibrium solutions (disease-free and endemic) related to the novel fractional-order dengue model in terms of the basic reproduction number R0. Additionally, we developed an optimal control problem for the extended fractional-order dengue system with control to study the effect of three different interventions: reduction of mosquito recruitment rate, adult vector control, and individual protection. Furthermore, we derived a sufficient condition for the existence of a solution to the optimal control problem. Finally, numerical experiments suggest that policymakers may focus on fractional-order parameters that represent the mechanisms of disease transmission and recovery in addition to the two vector controls to reduce dengue spreading in a location.", "revisions": [ { "version": "v1", "updated": "2024-02-19T09:19:07.000Z" } ], "analyses": { "keywords": [ "global stability", "fractional-order transmission", "recovery process", "optimal control problem", "disease transmission" ], "note": { "typesetting": "TeX", "pages": 0, "language": "en", "license": "arXiv", "status": "editable" } } }