Secure and reliable IoT communications using nonorthogonal signals’ superposition with dual-transmission
Abstract
Ensuring secure communication for internet of
things (IoT) has drawn much attention because of the lim itation in the use of conventional cryptographic techniques
owing to the unique features of IoT devices such as low
complexity, lightweight computing, and power constraints.
Physical layer security (PLS) has the potential to provide
security solutions that are suitable for such applications.
In this article, an efficient PLS approach is proposed
for providing secure communication against external and
internal eavesdroppers in a downlink multi-carrier IoT
communication system. The system consists of a transmitter
with a single active antenna (and a single radio frequency
chain) that is trying to communicate with two single antenna IoT devices in the presence of a passive eaves dropper. In the proposed algorithm, frequency selective
channel based pre-coder matrices and dual-transmission
approach are jointly employed to provide simple and secure
communication without complex computational processing
at the IoT devices. Simulation results showed that the
proposed algorithm can provide security against internal
and external eavesdroppers and is suitable for IoT devices