Integrated GPS/INS systems provide an enhanced navigation system that has superior performance in comparison with either system operating in stand-alone mode as it can overcome each of their limitations. In this study, the heading updates provided by the heading sensor is first proposed to improve the accuracy of a MEMS IMU/GPS integrated system. The error of heading has great influence on the positional accuracy because it multiplies with horizontal velocities. Therefore, those additional velocity errors project onto horizontal positioning errors after numerical integration implemented in the INS mechanization. The faster the vehicle moves, the larger the positional errors caused by the heading error. In addition, this study applies two sets of GPS receivers that have relatively high sampling rate, 10Hz. In general; the sampling rate of the GPS receivers used for kinematic positioning is rather limited to 1 Hz only. The positioning and attitude errors between consecutive GPS updated measurements update for a MEMS IMU accumulate much more significantly than those of other sophisticated systems. Therefore, this study applies a set of GPS receivers with 10Hz sampling rate to investigate the impact of measurement update frequency provided by GPS on the positioning and attitude accuracy with the use of a MEMS IMU/GPS integrated system.