Due to the rapid development of wireless and mobile communications, demands for higher date rate coupled with advent of popular bandwidth-need applications such as high-definition video, 3D TV and interactive multimedia are putting pressure on wireless communication systems to offer higher data rate. The license-free V-band (57-64 GHz) can provide considerably more bandwidth. However, V-band wireless transmission is limited by high propagation loss in air. The need to remedy this situation led to the development of Radio-over-Fiber (RoF) technology, combining the advantages of fiber and wireless network. Moreover, multi-input multi-output (MIMO) technology can improve spectral efficiency by transmitting multiple signals within the same bandwidth using spatial multiplexing. There is a power decade issue in traditional polarization multiplexing division (Polmux) system. Several schemes have been proposed to solve this issue by adding polarization tracking or double guard band. This thesis proposed a frequency offset 60-GHz Polmux-OFDM-RoF system to solve power decade issue without additional components and guard band. And then, the proposed system combines with 2x2 MIMO wireless system. Deal with MIMO optical signals and wireless signals at the same time. In order to solve the impairments from IQ imbalance and uneven frequency response caused by 60-GHz wireless channel and component, this thesis employs digital signal processing technologies including of bit-loading algorithm, I/Q imbalance compensation and VBLAST compensation.