As the development in technology and science, the requirements of multi-Gbps wireless transmission are more important. For increasing data transmission, we raise the carrier frequency to 60 GHz which can offers 7 GHz unlicensed band (57-64 GHz) according to Federal Communications Commission (FCC). However, because of the serious propagation loss of 60-GHz RF signal, the radio-over-fiber (RoF) system is proposed to reduce the overall cost of 60 GHz wireless access network. To receive the higher performance in 60 GHz RoF system, compensating I/Q imbalance is inevitable especially in 7 GHz band because there are not two components which have identical frequency response in practice. In this thesis, an adaptive equalizer in frequency domain is applied to compensate the influence of I/Q imbalance on OFDM signal. We successfully demonstrate a 32 Gb/s OFDM signal on 3m wireless distance at 60 GHz within 7-GHz license-free band. Transmission over 25-km standard single-mode fiber and 3m wireless distance were achieved with negligible penalty.