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Paper detail

Differential Chaos Shift Keying-based Wireless Power Transfer over a Frequency Selective Channel

This paper studies the performance of a differential chaos shift keying (DCSK)-based wireless power transfer (WPT) setup in a frequency selective scenario. Particularly, by taking into account the nonlinearities of the energy harvesting (EH) process and a generalized frequency selective Nakagami-m fading channel, we derive closed-form analytical expressions for the harvested energy in terms of the transmitted waveform and channel parameters. A simplified closed-form expression for the harvested energy is also obtained for a scenario, where the delay spread is negligible in comparison to the transmit symbol duration. Nontrivial design insights are provided, where it is shown how the power delay profile of the channel as well as the parameters of the transmitted waveform affect the EH performance. Our results show that a frequency selective channel is comparatively more beneficial for WPT compared to a flat fading scenario. However, a significant delay spread negatively impacts the energy transfer.

preprint2022arXivOpen access
Priyadarshi MukherjeeConstantinos PsomasIoannis Krikidis
Systems and Controleess.SPeess.SY
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Priyadarshi MukherjeeConstantinos PsomasIoannis Krikidis

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