Recently, the research and development of wavelength-division-multiplexed passive optical network (WDM-PON) is considered as a solution to next generation network technology providing higher data rates and long-distance transmission. On the other hand, accompanying the latest development of the fourth generation wireless communication technology, the research in radio over fiber (RoF) has also been widely discussed. In this thesis, we utilize the wavelength reuse technologies to design a fiber-wireless (FiWi) broadband access network based on the WDM-PON architecture. The proposed scheme can provide the transmission services for data and RoF simultaneously. At the optical line terminal (OLT), directly modulated DFB lasers with the data rate of 10-Gbps carry the own downstream data, and then Fabry-Perot etalons are used to enhance the signal quality of the downstream data and to provide reusable lights for transporting downstream RoF signals. Each of those reusable lights is modulated by a reflective semiconductor optical amplifier (RSOA) with 2.5-GHz downstream RoF signal at the data rate of 5 Mbps. In the optical network unit (ONU), we use the downstream RoF light as the upstream source and choose a single RSOA to re-modulate 1.25-Gbps upstream data signal and 1.5-GHz upstream RoF signal with the data rate of 5 Mbps. Therefore, this scheme can achieve the best cost-effective way to meet the demands for FiWi broadband access networks.