Biorthogonal Fourier transform for multichirp-rate signal detection over dispersive wireless channel

• Main Authors: Lin Zheng, Chao Yang, Chao Yan, Hongbing Qiu
• Format: Article
• Language: English
• Published: SpringerOpen 2018-01-01
• Series: EURASIP Journal on Wireless Communications and Networking
• Subjects: Chirp-rate modulation; Biorthogonal Fourier transform; Matched signal transform; Dispersive channel
• Online Access: http://link.springer.com/article/10.1186/s13638-018-1027-3

Abstract Biorthogonal Fourier transform (BFT), consistent with the matched signal transform (MST), has been introduced to demodulate the M-ray chirp-rate signal which possesses good orthogonality in the BFT domain. Here, we analyze the characteristics of BFT detection in a further step, including the resolution capability of the multichirp-rate signal, the property of pulse compression, the closed-form bit-error rate in the additive white Gaussian noise (AWGN) channel, and the interference in the time-frequency dispersive channel. Even in the high Doppler environment, the shift in BFT detection is proven to be slight. In addition, we deduce that the orthogonality among received chirp rates in the BFT domain would be affected in the multipath dispersive environment. This causes the mutual interference among different chirp rates in a symbol and over symbols concurrently. The theoretical result shows that the chirp modulation parameter can be adjusted to obtain the trade-off between time and frequency dispersion. By the multipath model of chirp-rate signal, an auxiliary parallel interference cancellation (PIC) method is further introduced in multipath environment. Simulations verify our analyzed performance of BFT detection in the AWGN, Doppler, and multipath channels. The proposed interference cancellation algorithms are also proven to be effective.