Waiting time is a critical issue in service operations management because of its impacts on user satisfaction ad operations capabilities. This paper aims to develop a mathematical model for analyzing passenger waiting time in a high speed rail station where the system is served with feeder buses. The model measures interactions of passenger behaviors, reliability of feeder buses, and characteristics of high speed rail altogether. In addition, owing to the low seat utilization rate and high service frequency of the current Taiwan high speed rail, it is assumed as a quasi-infinite capacity system. Moreover passengers are categorized into two groups, named scheduled and random, respectively. Empirical data in high speed rail Taichung station are taken for numerical analysis. Results of the study found that under the current operations conditions, the Taichung-Taipei headway of high speed rail system should not be 24 minutes more or coefficient of variation of feeder buses should be kept under 0.46 to avoid the longer waiting time. In general, it is concluded that the high speed rail system would really improve its service quality only if the feeder system also provides good reliability.