Wireless RF Energy Transfer in the Massive IoT Era. Hirley Alves
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Название: Wireless RF Energy Transfer in the Massive IoT Era
Автор: Hirley Alves
Издательство: John Wiley & Sons Limited
Жанр: Техническая литература
isbn: 9781119718697
isbn:
The UN monitors the generation of e-waste closely. Its recent report [82] indicates a record of more than 53 million tonnes of e-waste in 2020 (21% increase in 5 years), and it predicts more than 74 million tonnes by 2030. Though some initiatives towards recycling are already taking place Spectrum-battery, more actions shall arise in the next decade. Moreover, considering the massive number of devices and shorter life cycle, the volume of person-months for maintenance-related tasks becomes economically unsustainable for many small and larger businesses alike.
All in all, battery-equipped MTDs are not a scalable solution for massive IoT deployments due to frequent replacements that may become dispendious and contribute to the generation of e-waste. In order to tackle this issue, EH (photovoltaic, induction, RF, among others [78, 79] has become a sound solution for powering such a massive number of devices. A recent white paper from a multi-disciplinary expert group indicates WET as a powerful technology for future mMTC [35]. A recent study proposes WET as a critical component toward sustainable ICT.
The RF–EH Solution. In this book, we advocate using RF-based energy transfer and harvesting for massive IoT deployments. We are continuously developing a technology called massive WET6, which from inception targets the power problem in massive deployments of MTDs.
Massive WET techniques [77, 78, 84–88] deployed in a power beacon (PB) allow powering a multitude of devices without imposing communication overhead. Besides, massive WET 1. increases the battery life cycle of MTDs, consequently enhances network lifetime; 2. contributes to the replacement reduction of batteries and devices, thus decreases the generation of e-waste; and 3. facilitates deployment and planning of the network. Due to wireless powering, device placement is flexible and even possible in dangerous or difficult to reach places; and 3) incites development of batteryless devices. WET will be ubiquitously available and devices can rely solely on WET to operate.
We envision a ubiquitous wireless power architecture composed of several PBs, employing the massive WET techniques discussed in this book. This architecture coexists and complements the information network (cellular or unlicensed LPWAN) such that a massive number of IoT devices (MTDs, battery-equipped and batteryless alike) profit from guaranteed energy delivery.
Notes
1 1 See examples at https://www.ericsson.com/en/mobility-report/mobility-visualizer.
2 2 The interested reader may refer to [9, 2-27] for a thorough discussion on LTE-M evolution, which is out of the scope of this book.
3 3. One more cellular IoT standard is the extended coverage GSM IoT (EC-GSM-IoT), which is optimized to harness the already available GSM infrastructure deployed in previous generations, thus operating in-band with GSM [30].
4 4. For further details on URLLC please refer to [31, 32].
5 5. A detailed account of the historical background and foundations of this technique can be found in [72].
6 6. We coined the term massive WET already in 2019 in a pre-print version of [78].
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