| Literature DB >> 33444478 |
Hadi Delavari1, Hamid Heydarinejad1, Dumitru Baleanu2,3.
Abstract
Type I diabetes is described by the destruction of the insulin-producing beta-cells in the pancreas. Hence, exogenous insulin administration is necessary for Type I diabetes patients. In this study, to estimate the states that are not directly available from the Bergman minimal model a high-order sliding mode observer is proposed. Then fractional calculus is combined with sliding mode control (SMC) for blood glucose regulation to create more robustness performance and make more degree of freedom and flexibility for the proposed method. Then an adaptive fractional-order SMC is proposed. The adaptive SMC protect controller against disturbance and uncertainties while the fractional calculus provides robust performance. Numerical simulation verifies that the proposed controllers have better performance in the presence of disturbance and uncertainties without chattering.Entities:
Keywords: Bergman minimal model; adaptive SMC; adaptive control; adaptive fractional-order blood glucose regulator; biochemistry; blood; blood glucose regulation; calculus; cellular biophysics; degree of freedom; diabetes patients; diseases; exogenous insulin administration; fractional calculus; fractional-order SMC; high-order sliding mode observer; insulin-producing beta-cells; medical control systems; mode control; numerical simulation; observers; pancreas; robust control; robust performance; sliding mode control; state estimation; sugar; type I diabetes; variable structure systems
Year: 2019 PMID: 33444478 PMCID: PMC8687272 DOI: 10.1049/iet-syb.2018.5016
Source DB: PubMed Journal: IET Syst Biol ISSN: 1751-8849 Impact factor: 1.615