Rapidly increasing demand for multi-Gbps wireless communication has attacted a lot of interest in the 7-GHz license-free spectrum at 60 GHz. Due to higher air-link loss at 60 GHz, the radio-over-fiber (RoF) system is a promising solution for extending the coverage of 60GHz wireless signals. However, 60 GHz wireless networking presents many technical challenges owing to the high carrier frequency and the wide channel bandwidth used. One of challenges is the non-flat channel response with up to 10 dB deviation within the 7 GHz spectrum. In this thesis, bit-loading algorithm significantly improves performance and data throughput of ultra-wideband mm-wave RoF systems employing all-optical I/Q up-conversion architectures. By using bit-loading algorithm, we demonstrate bit-loading OFDM signal generation and transmission with a record of 32.65 Gb/s within 7-GHz license-free spectrum at 60 GHz band. Transmission over 25-km SMF transmission with negligible penalty is achieved without any dispersion compensation.