This present paper aims to examine various epidemiological aspects of the monkeypox viral infection using a fractional-order mathematical model. Initially, the model is formulated using …
In this paper, we introduce a novel model that simulates the spread of the monkeypox virus. The new model takes into account the effect of the interaction between the human and …
This paper presents a new mathematical model governed by a nonlinear fractional-order system of differential equations to investigate the dynamics and optimal control interventions …
Vaccines play a crucial role in mitigating the transmission of COVID-19. The primary objective of COVID-19 vaccination campaigns is to induce immunity in individuals, thereby …
The mathematical model for monkeypox infection using the ψ–Hilfer fractional derivative is presented in this study. The integer order formulation is extended to the fractional order …
OO Peace, OA Godwin, B Bolaji - Healthcare Analytics, 2024 - Elsevier
One of the realities of the COVID-19 worldwide pandemic is the occurrence of infected individuals with COVID-19 and two other diseases, Monkeypox and HIV. This study presents …
K Soni, AK Sinha - Partial Differential Equations in Applied Mathematics, 2024 - Elsevier
Monkeypox is a deadly disease from the Orthopox family. The paper explores a nonlinear trend in the dynamics of Monkeypox propagation. In this model, we include vaccination …
MA Khan, MZ Meetei, K Shah, T Abdeljawad… - Open Physics, 2023 - degruyter.com
This article presents the mathematical formulation for the monkeypox infection using the Mittag–Leffler kernel. A detailed mathematical formulation of the fractional-order Atangana …
MY Khan, S Ullah, M Farooq, AB Saqib - 2024 - researchsquare.com
In the last two decades, Nipah virus (NiV) has become a significant paramyxovirus transmitted by bats, causing severe respiratory illness and encephalitis in humans. Due to …