Energy-Aware Security Adaptation for Low-Power IoT Applications

The constant evolution in communication infrastructures will enable new Internet of Things (IoT) applications, particularly areas that, up to today, have been mostly enabled by closed or proprietary technologies. Such applications be a myriad wireless technologies designed for all types IoT devices, among which are the Long-Range Wide-Area Network (LoRaWAN) other Low-power and Networks (LPWAN) This applies many critical environments, such as industrial control healthcare, where communications yet broadly adopted. Two fundamental requirements effectively support upcoming those energy management security. We may note that are, fact, contradictory goals. On one hand, devices depend on usage batteries while, adequate security mechanisms need place protect from threats against their stability With thismotivation mind, we propose solution address management, tandem, LoRaWAN environments. evaluate an architecture context adaptation logic is used manage dynamically, with goal guaranteeing appropriate security, while promoting lifetime constrained sensing devices. proposed was implemented experimentally evaluated observed successfully energy. Security managed line application at characteristics employed detection, well threat, particular attacks.