Constructing smart buildings with in-concrete backscatter networks

Gong, Zheng; An, Zhenlin; Jingyu, Tong; Dai, Donghui; Yang, Lei

doi:10.1145/3495243.3558756

Cited by 3 publications

(2 citation statements)

References 3 publications

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“…Moving from optical to terahertz signals allows the decoupling of the sensing and actuation from the communication processes. Finally, one could adopt magnetoelectric [122], [123] and coupling techniques to operate at significantly lower frequencies. In this case, the much-expected better propagation of the signals will bring interesting medium access control and networking challenges.…”

Section: Radio and Microwavesmentioning

confidence: 99%

“…This requires a careful revisit of not only the channel models, as thermal noise is reduced dramatically, but also of the RF circuit design, now that most RF device non-idealities are largely attenuated. Internet of NanoThings Wireless Networks within Package Quantum Computing Optical [111], [112], [115] [130], [162] [160] THz [85], [121] [16], [67], [73], [131], [163] [137] mmWave [164] [68], [129], [163], [165]- [169] [17] Microwave [122], [123], [170], [171] N/A [158], [159], [161] Non-Radiative [96], [97] N/A N/A…”

Section: Quantum Computingmentioning

confidence: 99%

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Electromagnetic Nanonetworks Beyond 6G: From Wearable and Implantable Networks to On-Chip and Quantum Communication

Abadal,

Han,

Petrov

et al. 2024

IEEE J. Select. Areas Commun.

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Emerging from the symbiotic combination of nanotechnology and communications, the field of nanonetworking has come a long way since its inception more than fifteen years ago. Significant progress has been achieved in several key communication technologies as enablers of the paradigm, as well as in the multiple application areas that it opens. In this paper, the focus is placed on the electromagnetic nanonetworking paradigm, providing an overview of the advances made in wireless nanocommunication technology from microwave through terahertz to optical bands. The characteristics and potential of the compared technologies are then confronted with the requirements and challenges of the broad set of nanonetworking applications in the Internet of NanoThings (IoNT) and on-chip networks paradigms, including quantum computing applications for the first time. Finally, a selection of cross-cutting issues and possible directions for future work are given, aiming to guide researchers and practitioners towards the next generation of electromagnetic nanonetworks.

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Section: Radio and Microwavesmentioning

confidence: 99%