论文部分内容阅读
A pilot-aided Orthogonal Frequency Division Multiplexing (OFDM) frequency offset es- timator designed for satellite communication system is proposed in the paper. The estimator focuses on the acquisition of the integer part of carrier frequency offset and the acquisition range is as large as the whole signal bandwidth. Making full use of the phase difference between received pilot and local ref- erential pilot, a fast estimation is obtained. Compared with existing method, our method can also work well even in SNR as low as 0dB. Simulations verify the good performance of our method.
A pilot-aided Orthogonal Frequency Division Multiplexing (OFDM) frequency offset es-timator designed for satellite communication system is proposed in the paper. The estimator focuses on the acquisition of the integer part of carrier frequency offset and the acquisition range is as large as the Compared with the received pilot and local ref-erential pilot, a fast estimation is obtained. Compared with existing method, our method can also work even in SNR as low as 0dB. Simulations verify the good performance of our method.