When the XBeach model is used to simulate beach profiles, the selection of four sensitive parameters—facua, gammax, eps, and gamma—is crucial.Among these, the two key parameters, facua and gamma, are Streaming particularly sensitive.However, the XBeach model does not specify the exact choice of these four key parameters, offering only a broad range for each one.In this paper, we investigate the applicability of tuning these four parameters within the XBeach model.We employ Generalized Likelihood Uncertainty Estimation (GLUE) to optimize the model settings.
The Brier Skill Score (BSS) for each parameter combination is calculated to quantify the likelihood probability distribution of each parameter.The optimal parameter set (facua = 0.20, gamma = 0.50) was ultimately determined.Here, the facua parameter represents the degree of influence of wave skewness and asymmetry on the direction of sediment transport, while the gamma parameter represents the equivalent random wave in the wave dissipation model and is used to calculate the probability of wave breaking.
Six profiles of the southern beach on Chudao Island are selected to validate the results, establishing the XBeach model based on profile Fridge Latch Assy measurement data before and after Typhoon “Lekima”.The results indicate that after parameter optimization, the simulation accuracy of XBeach is significantly improved, with the BSS increasing from 0.3 and 0.17 to 0.68 and 0.
79 in P1 and P6 profiles, respectively.This paper provides a recommended range for parameter values for future research.