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Solar/Electromagnetic Energy Harvesting And Wireless Power Transmission
2014
Zenodo
This paper presents a review of existing works and solutions in the field of solar/electromagnetic energy harvesting and wireless power transmission. ...
the outputs of the solar and the electromagnetic harvesters, and efficient solar-to-electromagnetic (EM) converters that can be used to synthesize autonomous wireless power transmission radio-frequency ...
Section Solar/Electromagnetic Energy Harvesting and Wireless Power Transmission Kyriaki Niotaki, Student Member, IEEE, Ana Collado, Senior Member, IEEE, Apostolos Georgiadis, Senior Member, IEEE, Sangkil ...
doi:10.5281/zenodo.55457
fatcat:devsbaq3fnfmlafwwbxdiqhpx4
SWAP Project: Beyond the State of the Art on Harvested Energy-Powered Wireless Sensors Platform Design
2011
2011 IEEE Eighth International Conference on Mobile Ad-Hoc and Sensor Systems
Finally, we provide a brief overview on the latest energy harvester for miniature scale devices and we argue on the feasibility of a hybrid solar-electromagnetic harvesting module. ...
In particular, we analyze the state of the art in the main research areas: energy efficient communication protocol design, ultra-low-power hardware design and most advanced harvesting techniques. ...
of hybrid solar electromagnetic energy harvesters and iv) a low power DC-DC converter circuits using off-the-shelf components. ...
doi:10.1109/mass.2011.97
dblp:conf/mass/BuiGMRV11
fatcat:jypiqinsqnfibblr7vwq3y7g6m
Rectenna Design And Signal Optimization For Electromagnetic Energy Harvesting And Wireless Power Transfer
2015
Zenodo
This work addresses two key topics in the field of energy harvesting and wireless power transfer. ...
The second is the design of rectifiers that present reduced sensitivity to input power and output load variations by introducing resistance compression network (RCN) structures. ...
and the EU COST Action IC1301 Wireless Power Transmission for Sustainable Electronics. ...
doi:10.5281/zenodo.46431
fatcat:kudwm54idzazpkymnkbeuwwauu
Rectenna Design and Signal Optimization for Electromagnetic Energy Harvesting and Wireless Power Transfer
2015
IEICE transactions on electronics
This work addresses two key topics in the field of energy harvesting and wireless power transfer. ...
The second is the design of rectifiers that present reduced sensitivity to input power and output load variations by introducing resistance compression network (RCN) structures. ...
and the EU COST Action IC1301 Wireless Power Transmission for Sustainable Electronics. ...
doi:10.1587/transele.e98.c.608
fatcat:liiwh7krejaflo5qv4me547xiy
Ring slot CP antenna for the hybrid electromagnetic solar energy harvesting and IoT application
2023
TELKOMNIKA (Telecommunication Computing Electronics and Control)
energy harvesting. ...
transmission. ...
However, the authors would like to point out that solar electromagnetic hybrids for energy harvesting using dual feed slot ring slots CP antennas can be applied to multiple channels rectenna in conjunction ...
doi:10.12928/telkomnika.v21i2.24739
fatcat:4wegas2yvvdefnyllzacx6yrwu
Energy Harvesting and Scavenging [Scanning the Issue]
2014
Proceedings of the IEEE
Niotaki et al. review in their paper numerous existing efforts and solutions in the field of solar and electromagnetic (EM) energy harvesting and wireless power transmission. ...
This special issue covers recent advances in energy-harvesting and energy-scavenging systems with reviews of numerous ''renewable'' transducer technologies, including solar, electromagnetic, thermal, and ...
doi:10.1109/jproc.2014.2361599
fatcat:rftaqmnwvfg7nnbyo4sq33xeiy
Energy-Efficient Resource Optimization with Wireless Power Transfer for Secure NOMA Systems
2018
2018 IEEE/CIC International Conference on Communications in China (ICCC)
With the consideration of an existing eavesdropper, the objective is to obtain secure and energy efficient transmission among multiple users by optimizing time, power and subchannel allocation. ...
In this paper, we investigate resource allocation algorithm design for secure non-orthogonal multiple access (NOMA) systems empowered by wireless power transfer. ...
Compared with conventional energy sources such as wind and solar, electromagnetic signals are not locationdependent. ...
doi:10.1109/iccchina.2018.8641140
dblp:conf/iccchina/0001CHRYC18
fatcat:6n3olgjcdrchfhvf62uaujh2la
Analysis and Design of a Wireless Sensor Network Based on the Residual Energy of the Nodes and the Harvested Energy from Mint Plants
2021
Journal of Sensors
In this work, we propose the design and analysis of an energy harvesting system using bioelectricity harvested from mint plants that aids in powering a particular design of a wireless sensor operating ...
We observe that with the use of mint plants, the harvested energy is of the order of a few Joules; nonetheless, such small energy values can sustain a wireless transmission if correctly adapted to drive ...
In addition, a wireless sensor must possess capacities for efficient energy management and maybe the ability to harvest the energy from the surroundings, including solar, electromagnetic, or the energy ...
doi:10.1155/2021/6655967
doaj:a42af84be72841dcb42972b722494e22
fatcat:swf4lf4qsjfnviqsduewacj4im
Power and Discrete Rate Adaptation in BER constrained Wireless Powered Communication Networks
2018
IET Communications
its transmission power according to its own channel state. ...
Optimal system throughput is a crucial design issue in wireless powered communication networks. ...
Several wireless power sources have been used to provide the energy, such as solar, electromagnetic and radio frequency (RF), to prolong the lifetimes of UNs [3] . ...
doi:10.1049/iet-com.2018.5380
fatcat:owdrfibqcrhenc5pxwkksnntta
Energy-Efficient and Secure Resource Allocation for Multiple-Antenna NOMA with Wireless Power Transfer
2018
IEEE Transactions on Green Communications and Networking
With the consideration of an existing eavesdropper, the objective is to obtain secure and energy efficient transmission among multiple users by optimizing time, power and subchannel allocation. ...
In the considered system, users who need to transmit data can only be powered by the wireless power transfer. ...
Compared with conventional energy sources such as wind and solar, electromagnetic signals are not location-dependent. ...
doi:10.1109/tgcn.2018.2851603
dblp:journals/tgcn/ChangLZRCOH18
fatcat:gmj76fjbjjbzplj3odhs7fboli
Ultra-Low Power RF Energy Harvesting of 1.9GHz & 2.45GHz Narrow-Band Rectenna for Battery-Less Remote Control
2017
International Journal of Information and Electronics Engineering
Various rectenna designs have been investigated to deal with a big growth interest in wireless energy harvesting. ...
The stated results represent that a dual-band rectenna of the energy harvester system could produce 1.62% to 10.18% more efficiency over a single-band rectenna at 1.9 GHz and 2.45 GHz respectively. ...
INTRODUCTION Recently, energy independent or self-powered electronics devices by ambient energy sources for instance solar, electromagnetic wave, vibration and heat significantly attract great interest ...
doi:10.18178/ijiee.2017.7.3.673
fatcat:vsd56ohe2bd6fc2i5s57ntbyw4
Integrated Data and Energy Communication Network: A Comprehensive Survey
2018
IEEE Communications Surveys and Tutorials
Index Terms-RF signals, wireless energy transfer (WET), wireless information transfer (WIT), simultaneous wireless information and power transfer (SWIPT), wireless powered communication networks (WPCNs ...
Hence, it is crucial to coordinate and balance WET and WIT for simultaneous wireless information and power transfer (SWIPT), which evolves to Integrated Data and Energy communication Networks (IDENs). ...
[92] have investigated solar/electromagnetic energy harvesting and wireless power transmission, covering the design of hybrid solar-electromagnetic harvesters, the circuits of direct current combiners ...
doi:10.1109/comst.2018.2860778
fatcat:zum4e6l2tzgivc3nw5dkqatkv4
ENERGY HARVESTING TECHNIQUES IN WIRELESS SENSOR NETWORKS
2018
Facta Universitatis Series Automatic Control and Robotics
Batteries are the main source of energy for low-power electronics such as micro-electro mechanical systems (MEMS), wireless sensor networks, embedded devices for remote sensing and control, etc. ...
The process of extracting energy from the surrounding environment and converting it into consumable electrical energy is known as energy harvesting or power scavenging. ...
wind
mechanical
wind turbine
power density is dependent on wind speed
solar
electromagnetic solar panel
(outdoors)
solar panel can be scaled to provide higher or
lower power
thermal
thermal ...
doi:10.22190/fuacr1802117n
fatcat:54qwfr3fxjdvvnur2m7luaw5vy
Energy Harvesting Sources, Storage Devices and System Topologies for Environmental Wireless Sensor Networks: A Review
2018
Sensors
At the same time, their surroundings usually provide opportunities to harvest ambient energy and use it to (partially) power the sensor nodes. ...
This article is focused on power supplies that provide energy to run the wireless sensor nodes in environmental applications. ...
Power Source Type
Power Density
Embedded
Output
Transducer
Nominal Power
Wind
Mechanical
28.5 mW/cm 2 [38],
47 dBm (50 W)
-
Wind Turbine
3.8 × 10 −4 W/cm 3 [13]
Solar
Electromagnetic 15 ...
doi:10.3390/s18082446
pmid:30060513
fatcat:lxyopb7k65fvbhghrdz2dyf3ii
Energy management for age of information control in solar-powered IoT end devices
2021
Wireless networks
In this paper, we propose several harvesting-aware energy management policies for solar-powered wireless IoT end devices that asynchronously send status updates for their surrounding environments to a ...
With this approach, energy management policies are constructed by using the time of day and month of year information in addition to the instantaneous values of the age of information and the battery level ...
In energy harvesting-based solutions, end devices are equipped to harvest energy from environmental (solar, electromagnetic, wind, etc.) sources and store the harvested energy in the rechargeable batteries ...
doi:10.1007/s11276-021-02637-8
fatcat:fdmmz4zbabfxzea6tz4a4bj4ja
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