Nowadays, direct-conversion radio frequency (RF) receivers become more appealing due to its cost advantage. However, orthogonal frequency division multiplexing (OFDM) systems with direct-conversion RF receivers are very sensitive to non-idealities at the front-end of receiver, such as carrier frequency offset (CFO) and inphase/quadrature-phase (I/Q) imbalance. These non-idealities at the receiver result in inter-carrier interference (ICI). Accurate estimates of the non-idealities and channel response are required in OFDM systems. This thesis studies CFO, I/Q imbalance, and channel estimation for OFDM systems with multiple transmit antennas. The thesis consists of three different blind estimation methods. The first one is least-square method. However, the original least-square method proposed by Xu etal. can only estimate channels. We improve it and make it able to estimate both I/Q imbalance and channels. The second one is a closed-form method for CFO estimation proposed by Zhang etal. In this thesis, we extend the closed-from method for joint CFO and I/Q imbalance estimation. The third one is the so-called one-shot method for CFO and channel estimation. We extend this method for joint CFO, I/Q imbalance, channel estimation. In this thesis numerical simulations are also provided to verify the performances of the proposed methods.