In this study, we adopt orthometric elevation of first-order leveling data and the ellipsoidal heights that are measured by GPS to fit the local geoid model. Traditionally, the fitting method adopts surface curve fitting method is calculated by least-squares to get the geoid value. Nevertheless, least-squares method can't deal with the problems which exist in random errors of data in coefficient matrix. Thus, the purpose of this study is to improve the precision of traditional surface curve fitting. We apply weighted total least-squares which also combined with quadratic polynomial surface curve fitting to improve the random errors of data in coefficient matrix and find the local geoid value with better precision. Combining traditional leveling control points with adjustment in number of fitting points, we obtain an ideal optimal local geoid model that is developed into the elevation precision of ±1.67 cm. This study provides not only a fast practical method in getting orthometric elevation but also academic references for a different method to fit the local geoid model.