This proposal is on the development of an automatic collision avoidance system in restricted water areas which is based on my previously research on open water areas, ship domain and guidance schemes. The collision avoidance system for autonomous ship aims at not only deriving a reasonable and safe path to the goal but also keeping COLREGs (International Regulations for Preventing Collisions at Sea) even in the restricted water areas. Due to the maneuverability of the vessel in restricted areas was limited with dynamic boundary, so the establish the ship domain, dynamic static obstacles model and ship collision risk quantification are deduced by considering the factors of bank effect, shallow bottom, wind and current. In this research work, we adopted the geographical condition, environmental condition, ship domain, CPA and TCPA with safety factor to obtain the new temporally waypoint (called as point B') which can be guided the vessel with collision avoidance and it also can be leaded the vessel back to its original path in restricted water areas. In the first stage, the numerical computer simulations are conducted to evaluate the feasibility of the proposed automatic collision avoidance system in restricted area and tried to figure out the appropriate safety factors with ship domain, CPA and TCPA. The next stage, the feasibility of the automatic collision avoidance system in restricted water areas will be verified by performing a series of path following maneuvers with targets vessel with different encounter situation by u sing ship handling simulator-based experiments under strong environmental disturbance condition. The results might provide a realistic guide to the characteristics of automatic collision avoidance system associated in restricted water areas.