In this thesis, the spectral sidelobe properties of MC-CDMA and OFCDM signals are investigated. Particularly, a general fast-sidelobe-decaying property of the frequency-domain spreading codes is observed to provide small power spectral sidelobes. Given the length of the frequency-domain spreading code, a limitation on the resulted sidelobe-decaying rate is also obtained. It is shown that, by proper arrangements, the spectral sidelobe properties of MC-CDMA or OFCDM signals with (frequency-domain spreading) OVSF and OCG codes can be completely described by their code indices. According to this description, new assigning principles for (frequency-domain spreading) OVSF and OCG codes subject to spectral sidelobe suppression are proposed. Also, all polyphase codes are shown to yield the same spectral sidelobe property. Furthermore, a new code tree management strategy for OVSF code is proposed aiming to maximize the sidelobe-decaying rate of the overall transmitted MC-CDMA or OFCDM signal, and in the meanwhile to eliminate the code-blocking problem completely.