“…However, only a small number of cumulus parameterization and cloud microphysics schemes were tested in this study, so there is a need to conduct more sensitivity experiments using diverse kinds of physics parametrization schemes in the future for a more sophisticated forecast performance verification. Besides, various methods to achieve better performances in typhoon forecast have been introduced by lots of studies; increasing the model horizontal resolutions (Buizza, 2010; Davis et al., 2010), improving initial condition (Cha & Wang, 2013; Y. Choi, Cha, & Kim, 2017; Kurihara et al., 1993; Liu & Tan, 2016), using alternative boundary condition (Moon et al., 2018), and reflecting the realistic atmosphere and ocean interactions by using atmospheric‐ocean coupled models (Bielli et al., 2021; Kim et al., 2014; Mogensen et al., 2017; Yesubabu et al., 2020). Therefore, other factors also should be considered and included in future studies with optimal physics combinations to further improve the overall typhoon forecast.…”