Abstract
In recent years, Internet of Things technologies gained momentum in various application areas, including the Smart Home field. In this view, the smart objects available in the house can communicate with each other and with the outside world by adopting solutions already proposed for Internet of Things. In fact, among the challenges to face during the design and implementation of an Internet of Things–based Smart Home infrastructure, battery usage represents a key point for the realization of an efficient solution. In this context, the communication technology chosen plays a fundamental role, since transmission is generally the most energy demanding task, and Internet of Things communication technologies are designed to reduce as much as possible the power consumption. This article describes an Internet of Things–oriented architecture for the Smart Home, based on the long-range and low-power technology LoRa. Moreover, in order to enable the devices to communicate with each other and the outside world, the Message Queue Telemetry Transfer protocol is used as a domotic middleware. We show that LoRa, designed by having in mind the typical requirements of Internet of Things (i.e. low power consumption, sporadic transmission, and robustness to interference), is well-suited to also meet the need of more established home automation systems, specifically the low latency in message delivery. Interoperability among different devices may also be obtained through the Message Queue Telemetry Transfer midlleware.
Highlights
The Smart Home (SH) domain encompasses a huge variety of technologies, applications, and services, aimed at improving the quality of life of the resident people
Such a concept was initially proposed by the International Telecommunication Union (ITU) in 2005:1 it encompasses a wide range of services and Department of Information Engineering (DII), Universita Politecnica delle Marche, Ancona, Italy
We propose a SH architecture based on the Long-Range (LoRa) technology at the physical layer,[7] and the Message Queue Telemetry Transfer (MQTT) protocol and show that by synergically adopting these technologies, we can face the typical requirements imposed by home automation architectures
Summary
The Smart Home (SH) domain encompasses a huge variety of technologies, applications, and services, aimed at improving the quality of life of the resident people. International Journal of Distributed Sensor Networks applications which rely on objects that can compute and communicate.[2] In this view, IoT can be integrated into the smart environment, extending the smart objects capabilities and enabling the user to monitor the environment remotely.[3]. The IoT domain covers a wide range of technologies, applications, and services. For this reason, it cannot be defined in terms of a single communication protocol.[2] In the literature, several studies have collected and summarized the proposals for IoT, providing a review of the most used technologies and protocols in this context. The same authors state that there are two main categories of IoT devices: resource constrained and resource-rich devices The former have enough software and hardware capabilities to support the TCP/IP (Transmission Control Protocol/Internet Protocol) protocol suite. According to Stojkoska and Trivodaliev,[11] the standard IoT usually consists of many Wireless Sensor Networks (WSNs)
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