Empowering secure transmission for downlink of multiple access system relying non-orthogonal signal multiplexing

Abstract: The growth of internet-of-things (IoT) inspired use cases in different run of the mill environments such as cities, industries, healthcare, agriculture, and transportation, has led to a greater desire for safer IoT data gathering and storage. However, securing IoT is challenging due to form-factor, complexity, energy, and connectivity limitations. Conventional coding-based security techniques are unsuitable for ultra-reliable low-latency and energy-efficient communication in IoT. Numerous research studies on p… Show more

“…Recently, many studies have been proposed for physical layer security (PLS) techniques in the fifth generation (5G); however, due to complex limitations, some of these solutions cannot be applied in IoT networks. NOMA is considered a viable technology to solve latency and connectivity requirements in IoT [23]- [27]. In [28]- [31], the authors have applied a NOMA with implementation of signal processing on the downlink side.…”

Throughput analysis of non-orthogonal multiple access and orthogonal multiple access assisted wireless energy harvesting K-hop relaying networks

“…Recently, many studies have been proposed for physical layer security (PLS) techniques in the fifth generation (5G); however, due to complex limitations, some of these solutions cannot be applied in IoT networks. NOMA is considered a viable technology to solve latency and connectivity requirements in IoT [23]- [27]. In [28]- [31], the authors have applied a NOMA with implementation of signal processing on the downlink side.…”

Throughput analysis of non-orthogonal multiple access and orthogonal multiple access assisted wireless energy harvesting K-hop relaying networks