Engineers are interested in the dynamic characteristics of bridges via field measurements. To obtain the dynamic response of a bridge, traditional measurement approaches require several sensors to be installed on the bridge deck. Such approaches are referred to as the direct approaches. Recently, some progress has been made on the global measurement techniques of bridges. Yang and his co-workers (2004) presented a new concept for measuring the bridge frequencies from the dynamic responses of a passing vehicle. Such an approach is referred to as the indirect approach, which is advantageous over the direct approaches in terms of portability, convenience, and economics, due to the fact that it requires sensor(s) being installed on the vehicle instead of on the bridge. However, previous researches along these lines were focused on numerical simulations, parametric studies, and preliminary field tests, for the purpose of verifying the feasibility of the indirect approach theoretically and experimentally. As for the test vehicle, which greatly affects the probability of successfully identifying the bridge frequencies, was not studied thoroughly. Therefore, the objective of this study is to enhance the indirect approach for measuring the bridge frequencies by improving the test vehicle and related instrumentation through the repetition of the vehicle tests and field tests. In this study, the test results indicate that the dynamic characteristics of the test vehicle is crucial to the indirect approach and that better identification results can be obtained in practical bridge measurements by improving the test vehicle structure and tires materials. Finally, concluding remarks are drawn for further field tests and future researches at the end of this study.