Orthogonal Frequency Division Multiplexing systems have been adopted in many transmission standards in recent years due to its high spectral efficiency and robustness for inter-symbol interference (ISI) in multi- path fading channel. However, it is very sensitive to frequency synchro- nization because of its requirements of the orthogonality between the subcarriers. Phase noise (PHN)is one of the factors that effect the system performance most significantly .It will induce Common Phase Error (CPE)、 Inter-carrier interf- erence(ICI) and error floor . In this thesis, we approximate PHN by discrete Fourier series and then suppress the phase noise effect by implementing successive interference cancellation. Based on the schemes, we propose a complexity reduction method by Cholesky decomposition and blockwise matrix inversion lemma. Moreover, we use the linear interpolation between two OFDM symbols to mitigate the edge problems on the edges in PHN estimation samples. It is shown by simulation results that the proposed schemes performs well to suppress the error floor.