An efficient signal modulation and demodulation method based on integral judgments

被引：0

作者：

Liu, Chen ^{[1
]}

Sha, Xuejun ^{[1
]}

Zhang, Wenbin ^{[1
]}

Chen, Yejing ^{[2
]}

机构：

[1] Communication Research Center, Harbin Institute of Technology, Harbin

[2] Air Force 2nd Communication Regiment

来源：

Harbin Gongye Daxue Xuebao/Journal of Harbin Institute of Technology | 2015年 / 47卷 / 03期

关键词：

Chirp signal; Cooperative transmission; Modulation and demodulation; The BER performance;

D O I：

10.11918/j.issn.0367-6234.2015.03.005

中图分类号：

学科分类号：

摘要：

In order to solve the problem that the BER and spectral efficiency restrict each other in the traditional modulation methods, we design a novel signal modulation and demodulation method where the cosine signal and the chirp signal are used as carriers to transmit cooperatively. In the modulation, each signal of the traditional QPSK modulation is inserted by a chirp signal to form the mix modulation. In this case, the new modulation will permit the four signals to transmit simultaneously; In the demodulation, consisting of the carrier signals, we design eight integrators. Moreover, the signals will be estimated by the maximum value of integral results. Numerical results imply that this modulation and demodulation method improves both BER and the bit pass rate. It means that the modulation and demodulation method we design in this paper obtains the comprehensive advantages between BER and spectral efficiency, and enhances the effective capacity of the system. ©, 2015, Harbin Institute of Technology. All right reserved.

引用

页码：29 / 35

页数：6

共 8 条

[1] Dorsch R.G., Lohmann A.W., Bitran Y., Et al., Chirp filtering in the fractional fourier domain, Applied Optics, 33, 32, pp. 7599-7602, (1994)
[2] Almeida L.B., The fractional fourier transform and time-frequency representation, IEEE Transactions on Signal Processing, 42, 11, pp. 3084-3091, (1994)
[3] Pei S.C., Ding J.J., Relations between fractional operations and time-frequency distribution, and their application, IEEE Transactions on Signal Processing, 49, 8, pp. 1638-1655, (2001)
[4] Pei S.C., Ding J.J., Fractional fourier transform, wigner distribution, and filter design for stationary and nonstationary random processes, IEEE Transactions on Signal Processing, 58, 8, pp. 4079-4092, (2010)
[5] Shi J., Chi Y., Zhang N., Multichannel sampling and reconstruction of band limited signals in fractional domain, IEEE Signal Processing Letters, 17, 11, pp. 909-912, (2010)
[6] Hon T.H., Yong W.T., Toh K.B., Signal correlation between two normal-mode helical antennas for diversity reception in a multipath environment, IEEE Transactions on Antennas And Propagation, 52, 2, pp. 572-577, (2004)
[7] Kyritsi P., Kadri N., Thang E., Et al., Signal correlation in a hallway environment using waveguide mode analysis, Vehicular Technology Conference 2002, pp. 787-791, (2002)
[8] Hu S., Li S., Bi G., Et al., Improved spectrum efficiency for transform domain communication systems, Wireless and Optical Communication Conference 2013, pp. 18-22, (2013)

← 1 →