
READ ME File For 'Millimeter Wave Power Transmission for Compact and Large-Area Wearable IoT Devices based on a Higher-Order Mode Wearable Antenna Data'

Dataset DOI: 10.5258/SOTON/D1931


ReadMe Author: Mahmoud Wagih, University of Southampton

This dataset supports the publication:

AUTHORS: Mahmoud Wagih, Geoffrey S. Hilton, Alex S. Weddell, Steve Beeby
TITLE: Millimeter Wave Power Transmission for Compact and Large-Area Wearable IoT Devices based on a Higher-Order Mode Wearable Antenna
JOURNAL: IEEE Internet of Things Journal
PAPER DOI IF KNOWN: 10.1109/JIOT.2021.3107594


This dataset contains:

DCOutput_Comparisons_UHF_vs_mmWave.csv				the complete DC output sweeps for varying distances for mmWave and UHF WPT, modelled retifier PCEs (analytical and HB-numerical) are also included
mp24GHzHornA.dat									Measured 3D radiation patterns of a reference horn antenna (A and B denote measurment repeats for stable referencing)
mp<freq>GHzPatchA.dat								Measured 3D patterns of the proposed patch at 24 and 26 GHz, 26 GHz measurements repeated four times (A-D)
PatchDec<freq>GHz.fig								Matlab plot of the 3D patterns of the antenna at 24 and 26 GHz
RadEff_Comparison.csv								Comparison of the radiation efficiency with previous work (Fig. 11)
RadPatt_Sim_28GHz.csv								CST-simualted radiation patterns at 28 GHz
RadPatt_SimMeas_24GHz.csv							SImulated and measured radiation patterns at 24 GHz
RadPatt_SimMeas_26GHz.csv							Simulated and meassured radiation patterns at 26 GHz 

Date of data collection: 09/2020-08/2021

Information about geographic location of data collection:  Southampton, U.K.; Bristol, U.K.

Licence: CC-BY

Related projects:
Wearable and Autonomous Computing for Future Smart Cities - Platform Grant
EnABLES: European Infrastructure Powering the Internet of Things

Date that the file was created: 09, 2021