Orthogonal frequency division multiplexing (OFDM) systems may experience significant inter-carrier interference (ICI) when used in time- and frequency-selective, or doubly selective, channels. In high mobility environment mobile communication suffers from critical Doppler effect, the performance is decreasing due to fast fading. The structure of the traditional demodulation system in time-invariant channel can not conquer this problem, so that the BER is rapidly rising. In this thesis we take the advantage of the mechanism generated by ICI effect, and we proposed calculating method of the equalizer. This method contains two stages, the first stage applies time-domain windowing to restrict ICI support, and the second stage uses iterative estimation to estimate finite-alphabet frequency-domain symbols. Simulation results indicate that our equalizer has significant performance and complexity advantages over the classical linear MMSE estimator in doubly selective channels.