In the LTE system, the base station (eNodeB) periodically broadcasts two synchronization signals, namely, the primary synchronization signal (PSS) and the secondary synchronization signal (SSS) every 5 ms. The user equipment (UE) makes use of the synchronization signals to accomplish initial cell search. In this thesis, the initial cell search procedure is discussed and is divided intothree different stages. In the first stage, we prefer to use cyclic prefix-based maximum likelihood (CP-Based ML) method in time domain to estimate the symbol timing and fractional carrier frequency offset (FCFO),instead of the conventional method which calculates the cross-correlation between the received signal and the UE local replicas of PSS in the time domain. The CP-Based ML method can improve the symbol timing estimation performance. In the second stage, we can use differential correlation (DC) method or partial correlation (PC) method to detect PSS in frequency domain for the mitigation ofchannel’sfrequency selective fading effect. Integer carrier frequency offset (ICFO) can also be jointly estimated by both methods. In the third stage, we discuss two structures to detect SSS in the frequency domain. The UE initial cell search procedure ends when the above three stages are completed.