Performance of Wireless Powered Communication Systems Over Beaulieu-Xie Channels With Nonlinear Energy Harvesters
Performance of wireless powered wireless systems is analyzed. The wireless devices in such systems scavenge energy from sources in downlinks and use the energy to communicate in uplinks. We introduce two new models for these energy harvesters to consider their nonlinear circuitry and their functioni...
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| Veröffentlicht in: | IEEE open journal of the Communications Society 2023-01, Vol.4, p.1-1 |
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| creator | Olutayo, Adebola Dong, Yanjie Cheng, Julian Holzman, Jonathan F. Leung, Victor C. M. |
| description | Performance of wireless powered wireless systems is analyzed. The wireless devices in such systems scavenge energy from sources in downlinks and use the energy to communicate in uplinks. We introduce two new models for these energy harvesters to consider their nonlinear circuitry and their functioning over multiple line-of-sight and non-line-of-sight channels. The newly proposed Beaulieu-Xie fading model is used to characterize this manifold of channels. Performance analyses of average harvested energy and transmission outage probability show good fit between the proposed models and measured data. |
| doi_str_mv | 10.1109/OJCOMS.2023.3240077 |
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| subjects | Analytical models channel modeling Channels Circuits communication networks communication systems Communications systems Data models Energy harvesting Integrated circuit modeling Line of sight performance analysis Protocols radio frequency Rayleigh channels Receivers Wireless communication Wireless communications |
| title | Performance of Wireless Powered Communication Systems Over Beaulieu-Xie Channels With Nonlinear Energy Harvesters |
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