With the invention of the smartphone, tablet PC and some other high-technique products, it becomes significant to offer users more data throughputs in wireless communication system. One of the main protocols, long term evolution (LTE), developed by 3GPP become more and more dominated nowadays. And to extend the capacity of the cell phone in LTE system, a new transmission technique single-carrier frequency-division multiple access (SC-FDMA) is adopted for the uplink (UL) by lowing the peak-to-average power ratio (PAPR) in transmission power. Our thesis mainly focuses on discussing the channel estimation in SC-FDMA including the subjects of problems, algorithms, analyses, and simulations. In channel estimation, we first use the least square (LS) estimator, and then use several DFT-based channel estimators in transformed domain. We do the DFT-based channel estimations by transforming the channel frequency response (CFR) into transformed domain, cutting off the region contained more noise components, and transforming this equivalent channel impulse response (CIR) back into the frequency domain. And these DFT-based methods we use are conventional DFT-based, partial DFT-based, conventional DCT-based, partial DCT-based, and symmetric extension DFT-based methods. The conventional ones mean that the transformations are done in the whole frequency domain contained the guard band rather than the partial frequency domain only composed of the signal bandwidth like the partial ones. And the DFT or DCT-based methods mean that we do the transformation by using DFT or DCT. The symmetric extension DFT-based one means that before transmitting the CFR into transformed domain, we mirror duplicate it first, then due to the property of signal we will get a more accurate estimation. Finally, we add the dynamic truncated method in transformed domain when we remove the noise part by symmetric DFT-based and DCT-based methods to get a further improvement. In simulation, we verify the simulated models in AWGN. Then through the comparison in single-path Rayleigh and multipath channel conditions, we can get the results that symmetric extension DFT-based and DCT-based have better performance than other methods in general, and with the dynamic truncated methods the symmetric extension DFT-based has an extra performance gain both in the MSE or SER.