Research of the nonlinear amplitude-phase conversion effect on the 16-APSK signal noise immunity

This paper represents a study of the nonlinear amplitude-phase conversion effect on the M-APSK signal distortion. M-APSK signals are widely used in satellite communication systems, including broadcasting systems such as DVB-S2. The Saleh model has been used as a nonlinearity model in this paper. Studies have focused on searching the amplifier optimal operation mode in case of 16-APSK signals transmission.

DVB-S2, Back-off, APSK modulation, DVB-S2, amplitude-phase conversion, Back-off

1. De Gaudenzi R., Guillén i Fàbregas A. & Martinez A. Performance analysis of turbo-coded APSK modulations over nonlinear satellite channels // IEEE Transactions on Wireless Communications. 2006. V. 5, № 9. Р. 2396-2407.

2. Marco Baldi, Franco Chiaraluce, Antonio de Angelis, Rossano Marchesani and Sebastiano Schillaci. A comparison between APSK and QAM in wireless tactical scenarios for land mobile systems // EURASIP Journal on Wireless Communications and Networking. 2012. 317 p.

3. The DVB Project official site. Standards: DVB-S2X [Электронный ресурс] URL: https : //www. dvb. org/standards/dvb-s2x (дата обращения 01.02.2015).

4. Tao Cheng, Kewu Peng, Jian Song and Keqian Yan. EXIT-Aided Bit Mapping Design for LDPC Coded Modulation with APSK Constellations // IEEE Communications Letters. 2012. V.16, № 6. Р. 777-780.

5. K. Yan, F. Yang, C. Pan, J. Song, F. Ren and J. Li. Genetic algorithm aided gray-APSK constellation optimization // 9th International Wireless Communications and Mobile Computing Conference (IWCMC), Sardinia. 2013. Р. 1705-1709.

6. Urvashi Pal, Horace King. Estimation and Decoding in The Presence of Phase Noise for Non-Linear Channels // Australasian Journal of Information, Communication Technology and Applications. 2015. V.1, № 1. Р. 112-127.

7. Konstantinos P. Liolis, Riccardo De Gaudenzi, Nader Alagha, Alfonso Martinez, and Albert Guillén i Fàbregas. Amplitude Phase Shift Keying Constellation Design and its Applications to Satellite Digital Video Broadcasting. Digital Video, Floriano De Rango (Ed.), InTech, 2010. Р. 425-453.

8. Скляр Бернард. Цифровая связь. Теоретические основы и практическое применение: пер. с англ. М.: Изд. дом «Вильямс», 2003. 1104 c.

9. Носов В. И., Кокорич М. Г. Помехоустойчивость передачи цифровых сигналов по стволам аналоговых радиорелейных линий: Монография. СибГУТИ. Новосибирск, 2010. 136 c.

10. L. Guigno, M. Luise. Adaptive Pre- and Post-compensation of Nonlinear Distortions for High-Level Data Modulations // IEEE Transaction on Wireless Communications. 2004. V.3, № 5. Р.1490-1495.

11. Зюко А. Г., Кловский Д. Д. Теория передачи сигналов: Учебник для вузов. М.: Радио и связь, 1986. 304 c.

12. Гнеденко Б. В. Курс теории вероятностей. М.: Наука, ГРФМЛ, 1965. 400 с.

13. Левин Б. Р. Теоретические основы статистической радиотехники. 3-е изд., перераб. и доп. М.: Радио и связь, 1989. 653 с.