ABSTRACT A MMG mathematical model for ship maneuvering motions has been developed and validated for many years in Japan. Following the basic idea of MMG model, a modular mathematical model for the maneuvering motions of a submarine has been developed, in which the hydrodynamic forces of main hull, sail, bow and stern planes, rudders and propeller as well as interaction among them are considered. Firstly, the hydrodynamic coefficients estimated by the simulation basing on the present mathematical model with some empirical formula are compared with those obtained through oblique towing tests of a captive model. The agreement is quite acceptable. Then, some typical maneuvering motions of a submarine such as turning and zig-zag maneuvering were carried out to show that reasonable motion characteristics can be clarified through the simulation basing on the present modular mathematical model.