Abstract
With the advancements of high-resolution cameras, highly sensitive
photodetectors, and energy-efficient light emitting-diodes, optical
wireless communication (OWC) has emerged as key-enabling technology for
6G and beyond. Similarly, digital twin (DT) technology has been recently
proposed to meet the diverse requirements of emerging applications and
provide efficient optimization of the overall system resources by
enabling selfsustaining and proactive online learning. In DT, various
technology disciplines, including big data, artificial intelligence,
intelligent computing, communication, and security-aware technologies,
are integrated to create a virtual replica that reflects the physical
system. Motivated by this, the presented article discusses DT and its
role in the reliable and ubiquitous implementation of OWC networks. We
first provide an overview of this emerging research area by shedding
light on the key enabling technologies and potential applications in the
context of smart-autonomous OWC networks. Subsequently, we provide
recent advancements and design aspects related to DT-assisted OWC
systems. Finally, future research directions and the impact of different
system factors on the overall network performance are discussed. To the
best of the authors’ knowledge, this is the first in-depth review in the
literature on the integration of DT with OWC networks.