Secure Short-Packet Communications for Mission-Critical IoT Applications
Abstract In pervasive Internet of Things (IoT) applications, the use of short packets is expected to meet the stringent latency requirement in ultrareliable low-latency communications; however, the incurred security issues and the impact of finite blocklength coding on the physical-layer security have not been well understood. This paper comprehensively investigates the performance of secure short-packet communications in a mission-critical IoT system with an external multi-antenna eavesdropper. An analytical framework is proposed to approximate the average achievable secrecy throughput of the system with finite blocklength coding. To gain more insight, a simple case with a singleantenna access point (AP) is considered first, in which the secrecy throughput is approximated in a closed form. Based on that result, the