Riding on the Primary: A New Spectrum Sharing Paradigm for Wireless-Powered IoT Devices
TLDR
The performance of a new spectrum sharing model referred to as riding on the primary (ROP) for wireless-powered IoT devices with ambient backscatter communication capabilities under fading channels is investigated and the ergodic capacity of the secondary system is maximize by jointly optimizing the transmit power of the primary signal and the reflection coefficient.Abstract:
In this paper, a new spectrum sharing model referred to as riding on the primary (ROP) is proposed for wireless-powered IoT devices with ambient backscatter communication capabilities. The key idea of ROP is that the secondary transmitter harvests energy from the primary signal, then modulates its information bits to the primary signal, and reflects the modulated signal to the secondary receiver without violating the primary system’s interference requirement. Compared with the conventional spectrum sharing model, the secondary system in the proposed ROP not only utilizes the spectrum of the primary system but also takes advantage of the primary signal to harvest energy and to carry its information. In this paper, we investigate the performance of such a spectrum sharing system under fading channels. To be specific, we maximize the ergodic capacity of the secondary system by jointly optimizing the transmit power of the primary signal and the reflection coefficient of the secondary ambient backscatter. Different (ideal/practical) energy consumption models, different (peak/average) transmit power constraints, different types (fixed/dynamically adjustable) reflection coefficient, and different primary system’s interference requirements (rate/outage) are considered. Optimal power allocation and reflection coefficient are obtained for each scenario.read more
Citations
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Cooperative Ambient Backscatter Communications for Green Internet-of-Things
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Spectrum Sharing for Internet of Things: A Survey
TL;DR: A survey of prevalent IoT technologies deployed within licensed cellular spectrum and unlicensed spectrum, including shared spectrum, interference model, and interference management is provided and both advantages and disadvantages of different IoT technologies are discussed.
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Constellation Learning-Based Signal Detection for Ambient Backscatter Communication Systems
TL;DR: This paper proposes a label-assisted transmission framework, in which two known labels are transmitted from the tag before data transmission, and proposes modulation-constrained expectation maximization algorithm, based on which two detection methods are developed.
Proceedings ArticleDOI
Riding on the primary: A new spectrum sharing paradigm for wireless-powered IoT devices
TL;DR: In this article, a new spectrum sharing model referred to as riding on the primary (RoP) is proposed for wireless-powered IoT devices with ambient backscatter communication capabilities, where the secondary transmitter harvests energy from the primary signal, then modulates its information bits to the primary signals, and reflects the modulated signal to the secondary receiver without violating the primary system's interference requirement.
Journal ArticleDOI
Cooperative Ambient Backscatter System: A Symbiotic Radio Paradigm for Passive IoT
TL;DR: Three practical symbiotic transmission schemes are proposed, in which the relationships between the primary and backscatter transmissions are commensal, parasitic, and competitive, respectively, and the achievable rates are derived for particular fading state.
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