DVB-T系統所採用的核心技術是正交分頻多工(OFDM)。此技術運用了多載波間正交特性以達到高頻譜效益。並藉由前置循環字首(Cyclic prefix)來抵抗多重路徑干擾以及多載波之特性以達到消除符碼間干擾(ISI, Inter-symbol Interference);在高速移動環境下,DVB-T訊號經過時變的通道,接收到的訊號會產生都普勒擴展(Doppler Spread)的現象,破壞子載波間的正交性並進一步引起載波間干擾(ICI);而載波間干擾會隨著移動速度上升而越加嚴重,導致系統性能下降。為了克服高速移動所引起的載波間干擾(Inter-carrier Interference,ICI),本論文將前人方法加以改良,介紹了一套適合高速移動接收的通道估測和載波間干擾消除。本論文參考DVB-T系統,並且進一步的修改使其更合適於高速移動下的環境。針對所有受到ICI干擾的訊號,我們利用以下步驟:首先通道估測、其次.反覆式ICI消去方法,最後反覆使用最大近似(Maximum Likelihood,ML)偵測法推導出的向量投影方式搜索,抑制載波間干擾、降低其錯誤率,提昇系統速度。The core of DVB-T is OFDM system. By using multi-carriers and inserting cyclic prefix, this technology successfully eliminated the ISI effect and multi-path interference. In high-mobility environment, when DVB-T signals pass through the time-varying channel, the receive signals will have Doppler spread that can loss of sub-carrier orthogonality and cause the ICI. This ICI effect degrades the maximum allowed velocity of reception. To overcome the ICI which caused by the high-mobility, this thesis modifies other’s methods and introduces a method about the channel estimation and elimination of ICI which is suitable for high mobility reception. This thesis refers to the DVB-T standard, and further modifies it to suit in high-mobility environment. In high-mobility environment, the performance of wireless OFDM communication systems is degraded and limited by inter-carrier-interference (ICI) phenomenon. In this paper we proposed an algorithm based on maximum-likelihood criterion with improved performance in mitigation of ICI.
