The cases of Covid-19 that occurred in South Kalimantan were classified into 5 groups, namely suspected, treated, recovered, deaths, and healthy population who were susceptible for being infected with Covid-19. The dynamics of changes in the number of cases in each group can be studied mathematically through epidemiological mathematical modeling. In this study, the SEIRD Model (Susceptible, Exposed, Infected, Recovered, and Deaths) was formed to describe the dynamics of changing the number of Covid-19 cases in South Kalimantan. In this model, stability analysis and formulation of indicators for the controllability of the spread of Covid-19 are given, known as the Basic Reproduction Number. Furthermore, a sensitivity analysis of the parameters contained in the Basic Reproduction Number is given to determine the priority efforts that can be made to suppress the spread of Covid-19 in South Kalimantan.

Yulida Y and Karim M A 2020 Pemodelan Matematika Penyebaran Covid-19 di Provinsi Kalimantan Selatan Media Bina Ilm. Vol.14 3257–64

Karim M A and Yulida Y 2020 Analisa Pelaksanaan New Normal di Kalimantan Selatan melalui Model Matematika SIRD Media Bina Ilm. Vol.14 3681–8

Aldila D, Khoshnaw S H A, Safitri E, Anwar Y R, Bakry A R Q, Samiadji B M, Anugerah D A, GH M F A, Ayulani I D and Salim S N 2020 A mathematical study on the spread of COVID-19 considering social distancing and rapid assessment: The case of Jakarta, Indonesia Chaos, Solitons and Fractals 139

Abbasi Z, Zamani I, Mehra A H A, Shafieirad M and Ibeas A 2020 Optimal Control Design of Impulsive SQEIAR Epidemic Models with Application to COVID-19 Chaos, Solitons and Fractals 139

Abdy M, Side S, Annas S, Nur W and Sanusi W 2021 An SIR epidemic model for COVID-19 spread with fuzzy parameter: the case of Indonesia Adv. Differ. Equations 2021

Driessche P and Watmough J 2002 Reproduction Numbers and Sub-threshold Endemic Equilibria for Compartmental Models of Disease Transmission Math. Biosci. 180 29–48

Chitnis N, Hyman J M and Cushing J M 2008 Determining important parameters in the spread of malaria through the sensitivity analysis of a mathematical model Bull. Math. Biol. 70 1272–96

Edward S 2015 A Mathematical Model for the Dynamics of Cholera with Control Measures Appl. Comput. Math. 4 53

Karim M A and Gunawan A Y 2020 Parameter Estimations of Fuzzy Forced Duffing Equation: Numerical Performances by the Extended Runge-Kutta Method Abstr. Appl. Anal. 2020