Ashraf, RehanaAsif, Qurat-Ul-AinJarad, FahdRashid, Saima2024-04-292025-09-182024-04-292025-09-182022Rashid, Saima;...et.al. (2022). "Novel stochastic dynamics of a fractal-fractional immune effector response to viral infection via latently infectious tissues", Mathematical Biosciences and Engineering, Vol.19, No.11, pp.11563-11594.1551-0018https://doi.org/10.3934/mbe.2022539https://hdl.handle.net/123456789/12496Asif, Dr. Qurat Ul Ain/0000-0002-9033-0788In this paper, the global complexities of a stochastic virus transmission framework featuring adaptive response and Holling type II estimation are examined via the non-local fractal-fractional derivative operator in the Atangana-Baleanu perspective. Furthermore, we determine the existenceuniqueness of positivity of the appropriate solutions. Ergodicity and stationary distribution of nonnegative solutions are carried out. Besides that, the infection progresses in the sense of randomization as a consequence of the response fluctuating within the predictive case's equilibria. Additionally, the extinction criteria have been established. To understand the reliability of the findings, simulation studies utilizing the fractal-fractional dynamics of the synthesized trajectory under the Atangana-BaleanuCaputo derivative incorporating fractional-order alpha and fractal-dimension P have also been addressed. The strength of white noise is significant in the treatment of viral pathogens. The persistence of a stationary distribution can be maintained by white noise of sufficient concentration, whereas the eradication of the infection is aided by white noise of high concentration.eninfo:eu-repo/semantics/openAccessImmune Effector Response ModelFractal-Fractional Derivative OperatorBrownian MotionErgodicity And Stationary DistributionArticle10.3934/mbe.20225392-s2.0-85136590667