New Training Sequence Structure for Zero-Padded SC-FDE System in Presence of Carrier Frequency Offset

Frequency Domain Equalization (FDE) is an attractive\ud solution for wireless broadband transmission because\ud of its strong capability in handling multipath environment.\ud However, frequency domain channel estimation suffers from\ud the inter-carrier interference(ICI) caused by carrier frequency\ud offset (CFO). In this paper, we proposed new training sequence\ud structure for channel estimation to reduce the estimation errors\ud caused by residual CFO. The proposed new training sequence\ud structure can be easily obtained from any existing channel\ud training sequences without introducing significant changes to\ud their original property. Simulation results show that, this scheme\ud can efficiently reduce the channel estimation errors in FDE\ud system, and improve the system performance

New Training Sequence Structure for Zero-Padded SC-FDE System in Presence of Carrier Frequency Offset

Frequency Domain Equalization (FDE) is an attractive solution for wireless broadband transmission because of its strong capability in handling multipath environment. However, frequency domain channel estimation suffers from the inter-carrier interference(ICI) caused by carrier frequency offset (CFO). In this paper, we proposed new training sequence structure for channel estimation to reduce the estimation errors caused by residual CFO. The proposed new training sequence structure can be easily obtained from any existing channel training sequences without introducing significant changes to their original property. Simulation results show that, this scheme can efficiently reduce the channel estimation errors in FDE system, and improve the system performance