On the ASER performance of amplify-and-forward relaying MIMO/FSO systems using SC-QAM signals over log-normal and gamma-gamma atmospheric turbulence channels and pointing error impairments

• Published in: Journal of information and telecommunication (Print) Vol. 4; no. 3; pp. 267 - 281
• Main Authors: Ai, Duong Huu, Trung, Ha Duyen, Tuan, Do Trong
• Format: Journal Article
• Language: English
• Published: Abingdon Taylor & Francis 02.07.2020; Taylor & Francis Ltd; Taylor & Francis Group
• Subjects: Amplification; amplify-and-foward; Apertures; Atmospheric turbulence; Channels; Communications systems; Error analysis; Free-space optical communication; FSO; Gain; MIMO (control systems); pointing error; QAM; Quadrature amplitude modulation; Relaying; Stations; Statistical models; Vibration
• ISSN: 2475-1839; 2475-1847
• DOI: 10.1080/24751839.2020.1732734

In this work, we analyse pointing error effects on the performance of amplify-and-forward (AF) relaying multiple-input multiple-output (MIMO) free-space optical (FSO) communication system employing sub-carrier quadrature amplitude modulation (SC-QAM) signal over log-normal and gamma-gamma distributed atmospheric turbulence channels. We study the pointing error effects by taking into account the influence of beam-width, aperture size and jitter variance on the average symbol error rate (ASER), which is derived in closed-form expressions of MIMO/FSO and SISO/FSO systems. In addition, the number of relaying stations is taken into account in the statistical model of the combined channel including atmospheric loss, atmospheric turbulence and pointing error impairments. The numerical results show that by combining AF relaying stations and MIMO/FSO configurations, the link length can be extended because the transmitted power is reduced according to the amplifier gain. Moreover, the performance of AF relaying MIMO/FSO systems is better than that of AF relaying SISO/FSO systems at the same link length.