Abstract
The constant evolution in communication infrastructures will enable new Internet of Things (IoT) applications, particularly in areas that, up to today, have been mostly enabled by closed or proprietary technologies. Such applications will be enabled by a myriad of wireless communication technologies designed for all types of IoT devices, among which are the Long-Range Wide-Area Network (LoRaWAN) or other Low-power and Wide-Area Networks (LPWAN) communication technologies. This applies to many critical environments, such as industrial control and healthcare, where wireless communications are yet to be broadly adopted. Two fundamental requirements to effectively support upcoming critical IoT applications are those of energy management and security. We may note that those are, in fact, contradictory goals. On the one hand, many IoT devices depend on the usage of batteries while, on the other hand, adequate security mechanisms need to be in place to protect devices and communications from threats against their stability and security. With thismotivation in mind, we propose a solution to address the management, in tandem, of security and energy in LoRaWAN IoT communication environments. We propose and evaluate an architecture in the context of which adaptation logic is used to manage security and energy dynamically, with the goal of guaranteeing appropriate security, while promoting the lifetime of constrained sensing devices. The proposed solution was implemented and experimentally evaluated and was observed to successfully manage security and energy. Security and energy are managed in line with the requirements of the application at hand, the characteristics of the constrained sensing devices employed and the detection, as well as the threat, of particular types of attacks.
Highlights
The ongoing evolution of the global communications infrastructure promises to provide support for pervasive wireless communications, which are employed by a myriad of applications, among which are mobile applications employing all kinds of sensing and actuation devices
One class of Internet of Things (IoT) communication environments fitting this scenario is that of the Low-Power and Wide-Area Networks (LPWAN) [1], and in this context, the challenge is to address the support that these protocol classes offer to industrial applications with critical security and energy management requirements [2]
As we address throughout our discussion in this article, the dynamic management of energy and security in the context of an IoT application may provide the required security to protect the network against threats being detected at the moment, while allowing for a more careful and intelligent management of energy during the life cycle of the sensing devices employed—a valuable resource in providing acceptable lifetime to the IoT application at hand
Summary
The ongoing evolution of the global communications infrastructure promises to provide support for pervasive wireless communications, which are employed by a myriad of applications, among which are mobile applications employing all kinds of sensing and actuation devices. Diverse communication technologies will contribute to enabling new areas for the application of the IoT paradigm Among such areas, we will encounter, for sure, the need to support strong security guarantees, while at the same time, guaranteeing appropriate lifetimes for the constrained and battery-powered devices employed. We will encounter, for sure, the need to support strong security guarantees, while at the same time, guaranteeing appropriate lifetimes for the constrained and battery-powered devices employed In this context, we may consider that security and energy will require a joint management, in order for many IoT applications to be viable. One class of IoT communication environments fitting this scenario is that of the Low-Power and Wide-Area Networks (LPWAN) [1], and in this context, the challenge is to address the support that these protocol classes offer to industrial applications with critical security and energy management requirements [2].
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