An Effective Spatial Modulation Based Scheme for Indoor VLC Systems

Shimaa Naser,Paschalis C Sofotasios,Lina Bariah,Sami Muhaidat,Mahmoud Al-Qutayri

doi:10.1109/jphot.2022.3144656

Abstract

We propose an enhanced spatial modulation (SM)-based scheme for indoor visible light communication systems. This scheme enhances the achievable throughput of conventional SM schemes by transmitting higher order complex modulation symbol, which is decomposed into three different parts. These parts carry the amplitude, phase, and quadrant components of the complex symbol, which are then represented by unipolar pulse amplitude modulation (PAM) symbols. Superposition coding is exploited to allocate a fraction of the total power to each part before they are all multiplexed and transmitted simultaneously, exploiting the entire available bandwidth. At the receiver, a two-step decoding process is proposed to decode the active light emitting diode index before the complex symbol is retrieved. It is shown that at higher spectral efficiency values, the proposed modulation scheme outperforms conventional SM schemes with PAM symbols in terms of average symbol error rate (ASER), and hence, enhancing the system throughput. Furthermore, since the performance of the proposed modulation scheme is sensitive to the power allocation factors, we formulated an ASER optimization problem and propose a sub-optimal solution using successive convex programming (SCP). Notably, the proposed algorithm converges after only few iterations, whilst the performance with the optimized power allocation coefficients outperforms both random and fixed power allocation.

Highlights

V ISIBLE light communication (VLC) is envisioned to play a core role in future wireless networks as an efficientManuscript received January 14, 2022; accepted January 17, 2022
VLC systems suffer from the limited modulation bandwidth of light emitting diodes (LEDs) in addition to the constraints imposed by intensity modulation (IM)/direct detection (DD) schemes that, unlike radio frequency (RF) communications, require the transmitted signals to be positive and real-valued [6], [7]
In order to improve the performance of conventional spatial modulation (SM) schemes, we propose the transmission of a superimposed signal of the amplitude, phase, and quadrant components over the signal domain and provide a formulation of the associated power allocation optimization

Summary

Introduction

V ISIBLE light communication (VLC) is envisioned to play a core role in future wireless networks as an efficientManuscript received January 14, 2022; accepted January 17, 2022. Within this context, VLC utilizes the indoor light emitting diodes (LEDs) for both illumination and wireless data transmission [3]. It is worth mentioning that the intensity of the light emitted from the LEDs is modulated in order to transmit the corresponding information signal [4], [5]. This process is usually referred to as intensity modulation (IM). The implementation of spectrally efficient modulation schemes that overcome these limitations is of paramount importance for the design of efficient high data rate VLC systems [5], [7]–[10]

Objectives

Results

Conclusion