This study aims to develop a bi-level mathematical programming model to determine the optimal in-town congestion charge scheme in Taipei metropolitan. The upper level is to determine the optimal congestion charge scheme for maximizing the social welfare (SW); while the lower level aims to determine the optimal mode choice (by a Logit model) for maximizing road users’ utility and the optimal route choice (by an user equilibrium model) for minimizing their travel cost. A large-scale questionnaire survey is conducted on car or motorcycle owners in Taipei metropolitan for the estimation of the Logit model. Three generic variables: travel cost, travel time and toll level are significantly estimated. Two types of congestion charge schemes are respectively proposed and compared: the Link-based scheme and the Cordon-based scheme, where the Link-based scheme determines the optimal toll level on each link in the study network and the Cordon-based scheme determines the optimal toll cordon (center and radius) and toll level. An genetic algorithm software – Evolver is used to solve the both schemes. An exemplified example with a small network of 2 OD pairs and 7 links is designed to examine the reasonability and applicability of the proposed models. Sensitivity analysis on some important parameters is also performed to depict the relationships among the system. At last, a case study on Taipei metropolitan is conducted. The results show that the Link-based scheme can increase the social welfare by 17.76% and decrease total travel time by 7.55% by levying in-town congestion toll. It is worth noting that the tolled link may not be those which originally bear high traffic flows. The optimal toll levels range from NT$7 to NT$100 (upper toll limit). Meanwhile, the cordon-based scheme can increase social welfare by 47.09% and decrease total travel time by 13.03%. The optimal center and radius of toll cordon is located near the intersection of 10th Ave. and 7th Blvd and 4.5 km with a toll level of NT$50 per entrance during the morning peak hour. Obviously, the Cordon-based scheme performs better than the Link-based scheme.