Millimeter wave (mmWave) frequency bands offer a new frontier for cellular wireless systems to enable multigigabit communication. However, the availability and reliability of mmWave links are significantly limited due to its propagation characteristics. To mitigate the impact of such links and provide uninterrupted network services, the study of changing link condition is important. This paper proposes a reference signal (RS) transmission scheme and RS aware scheduling mechanism for a mmWave cellular system using highly directional antenna beams. The aim of RS is to estimate the channel condition which can be used for various purposes, e.g. initial access, beam alignment, and channel state information (CSI) measurement. In particular, the objective of our RS scheme is to enable efficient RS transmission in terms of RS frequently reception while ensuring a fair number of RS reception at all UEs within cell coverage. In addition, we provide a scheduling mechanism considering directional RS for studying the system throughput. Through theoretical analysis and simulation, we show that the proposed scheme achieves higher efficiency.