Abstract
Wake-up radio is a promising approach to mitigate the problem of idle listening, which incurs additional power consumption for the Internet of Things (IoT) wireless transmission. Radio frequency (RF) energy harvesting technique allows the wake-up radio to remain in a deep sleep and only become active after receiving an external RF signal to ‘wake-up’ the radio, thus eliminating necessary hardware and signal processing to perform idle listening, resulting in higher energy efficiency. This review paper focuses on cross-layer; physical and media access control (PHY and MAC) approaches on passive wake-up radio based on the previous works from the literature. First, an explanation of the circuit design and system architecture of the passive wake-up radios is presented. Afterward, the previous works on RF energy harvesting techniques and the existing passive wake-up radio hardware architectures available in the literature are surveyed and classified. An evaluation of the various MAC protocols utilized for the novel passive wake-up radio technologies is presented. Finally, the paper highlights the potential research opportunities and practical challenges related to the practical implementation of wake-up technology for future IoT applications.
Highlights
Internet of Things (IoT) technology is expected to offer a smart solution to users
The wake-up ranges are not given in almost all the CMOS designs, we can infer that they have higher wake-up ranges than the RFID based schemes from their higher sensitivity values
Communication is initiated by a wake-up beacon (WUB) from the transmitter to the passive wake-up radio of the receiver
Summary
IoT technology is expected to offer a smart solution to users. The sad reality is the battery technology is still far away from being smart [1]. The major problem faced by IoT devices is the limited energy source. Once the device battery is drained [1,2], communication outages will occur before battery replacement, which potentially extends to other nodes since they rely on the dead node to relay the data. The availability of the power in the sensor nodes is very important to allow reliable communication. This makes energy efficiency and power management crucial in future IoT applications
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