Abstract
Simultaneous wireless information and power transfer (SWIPT) has long been proposed as a key solution for charging and communicating with low-cost and low-power devices. However, the employment of radio frequency (RF) signals for information/power transfer needs to comply with international health and safety regulations. In this article, we provide a complete framework for the design and analysis of far-field SWIPT under safety constraints. In particular, we deal with two RF exposure regulations, namely, the specific absorption rate (SAR) and the maximum permissible exposure (MPE). The state of the art regarding SAR and MPE is outlined together with a description as to how these can be modeled in the context of communication networks. We propose a deep learning approach for the design of robust beamforming subject to specific information, energy harvesting, and SAR constraints. Furthermore, we present a thorough analytical study for the performance of large-scale SWIPT systems, in terms of information and energy coverage under MPE constraints. This work provides insights with regards to the optimal SWIPT design and the potentials from the proper development of SWIPT systems under health and safety restrictions.
Highlights
Wireless technologies are an important part of modern society, with Cisco expecting that global mobile subscribers will reach 5.7 billion by 2023, which will correspond 71 percent of the global population [1]
We evaluate the performance of Simultaneous wireless information and power transfer (SWIPT) networks with maximum permissible exposure (MPE) constraints and validate our analytical framework with Monte Carlo simulations
We provided an framework for the design and analysis of far-field SWIPT under safety constraints
Summary
Wireless technologies are an important part of modern society, with Cisco expecting that global mobile subscribers will reach 5.7 billion by 2023, which will correspond 71 percent of the global population [1]. The focus of wireless communications is mainly on how to improve the efficiency of information transfer. With the development of wireless systems employing a massive number of devices, such as sensors and actuators, recently this focus has.
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