Hybrid computational scheme for antenna-human body interaction.

Ramli, K.N.; Abd-Alhameed, R.A.; See, C.H.; Excell, P.S.; Noras, J.M.

Hybrid computational scheme for antenna-human body interaction.

Ramli, K.N.; Abd-Alhameed, R.A.; See, C.H.; Excell, P.S.; Noras, J.M.

Authors

K.N. Ramli

R.A. Abd-Alhameed

Prof Chan Hwang See C.See@napier.ac.uk
Professor

P.S. Excell

J.M. Noras

Abstract

A new hybrid method of moments (MoM)/finite-difference time-domain (FDTD), with a sub-gridded finite-difference time-domain (SGFDTD) approach is presented. The method overcomes the drawbacks of homogeneous MoM and FDTD simulations, and so permits accurate analysis of realistic applications. As a demonstration, it is applied to the short-range interaction between an inhomogeneous human body and a small UHF RFID antenna tag, operating at 900 MHz. Near-field and far-field performance for the antenna are assessed for different placements over the body. The cumulative distribution function of the radiation efficiency and the absorbed power are presented and analyzed. The algorithm has a five-fold speed advantage over fine-gridded FDTD.

Citation

Ramli, K., Abd-Alhameed, R., See, C., Excell, P., & Noras, J. (2013). Hybrid computational scheme for antenna-human body interaction. Progress in electromagnetics research B: PIER B, 133, 117-136

Journal Article Type	Article
Acceptance Date	Sep 24, 2012
Publication Date	2013
Deposit Date	May 22, 2019
Journal	Progress In Electromagnetics Research
Print ISSN	1937-6472
Peer Reviewed	Peer Reviewed
Volume	133
Pages	117-136
Keywords	Hybrid, Antenna Human Body, Interaction,
Public URL	http://researchrepository.napier.ac.uk/Output/1820626