In this study, three in situ laterally loaded tests of caisson foundations in gravels were analyzed. The differences of these tests were the application position of lateral loads and the exposed length of the foundations. The analysis models used beam elements with plastic hinges to simulate the column and a six-component Winkler beam model to simulate the foundation. Analysis results showed that the proposed analysis models could reasonably predict the behaviors of the caisson and the column. The lateral stiffness of foundation was significantly influenced by the application height of lateral loads and the exposed length of the foundations. According to the results of parameter analyses, although the foundations were situated in a gravel stratum, the caisson with a large exposed length underwent significant foundation flexibility and nonlinearity. A large exposed length may cause a reduction in the lateral stiffness and strength of the foundation. The horizontal soil reactions in front of the foundation provided major resistances to lateral loading. On the other hand, in engineering practice, in order to simplify the complexity of the foundation modeling in structural analysis, a set of uncoupled horizontal spring, vertical spring and rotational spring are often used to replace the complete foundation model, or even the fixed base condition is assumed. In this study, the appropriateness of those simplified methods were investigated.