Abstract
In this paper, a novel signal-space diversity (SSD) technique based multipoint-to-multipoint cooperative scheme for a multiuser free-space optical communication system is proposed. In SSD technique, constellation points of the transmitted signal are rotated by a certain angle and in-phase and quadrature components of two different symbols are interleaved to obtain diversity from the signal space. In the proposed scheme, the diversity of each cooperative user gets improved through joint encoding/decoding of the rotated symbols using subcarrier intensity modulation (SIM). The joint encoding/decoding can be done by connecting all the users' transceivers by wires that ensure the availability of the information of a user to all other users. The average symbol error rate for the proposed scheme under log-normal and gamma-gamma channel models is evaluated analytically and corroborated through Monte Carlo simulations. It is reported through intensive analyses and comparisons that the proposed cooperative scheme not only achieves full diversity order but also outperforms non-cooperative and repetition coding schemes.
Highlights
Free-space optical (FSO) systems use very narrow laser beams, which enhances data security, allows high reuse factor without inducing interference, and improve robustness to electromagnetic interference
The analytical and simulation-based average symbol error rate (ASER) curves for the two user M2M-C-FSO system are compared in Fig. 4 under log-normal channel with σ = 0.2 and different values of θ using (11) and (33) for quadrature phase shift keying (QPSK) modulation
A perfect matching between the analytical and simulation ASER curves corroborate the accuracy of the conducted performance analysis and derivations
Summary
Free-space optical (FSO) systems use very narrow laser beams, which enhances data security, allows high reuse factor without inducing interference, and improve robustness to electromagnetic interference. A novel SSD-based M2M-FSO specific cooperative scheme is presented and analysed under log-normal and gamma-gamma channel models for multiple users using different modulation levels. This allows joint encoding/decoding in the M2M-FSO scheme with a cost-effective approach where the existing infrastructure of M2M-NC-FSO is used. To understand the proposed strategy, we will first discuss an elementary set-up of M2M-C-FSO for two users in the subsection
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