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dc.contributor.authorSee, Chan H.*
dc.contributor.authorAbd-Alhameed, Raed*
dc.contributor.authorExcell, Peter S.*
dc.contributor.authorZhou, Dawei*
dc.date.accessioned2008-10-29T11:57:25Z
dc.date.available2008-10-29T11:57:25Z
dc.date.issued2008
dc.identifier.citationSee CH, Abd-Alhameed R, Excell PS et al (2008) Microscopic biological cell level model using modified finite-difference time-domain at mobile radio frequences. PIERS Online. 4(1): 6-10.en
dc.identifier.urihttp://hdl.handle.net/10454/815
dc.descriptionYesen
dc.description.abstractThe potentially broad application area in engineering design using Genetic Algorithm (GA) has been widely adopted by many researchers due to its high consistency and accuracy. Presented here is the initial design of a wideband non-dispersive wire bow-tie antenna using GA for breast cancer detection applications. The ultimate goal of this design is to achieve minimal late-time ringing but at higher frequencies such as that located from 4 to 8 GHz, in which is desire to penetrate human tissue for near field imaging. Resistively loading method to reduce minimal ringing caused by the antenna internal reflections is implemented and discussed when the antenna is located in free space and surrounded by lossy medium. Results with optimised antenna geometry and different number of resistive loads are presented and compared with and without existence of scatterers.en
dc.language.isoenen
dc.relation.isreferencedbyhttp://piers.mit.edu/piersonline/download.php?file=MDgwMTE2MDcyNjIzfFZvbDRObzVQYWdlNTkxdG81OTUucGRmen
dc.rights© 2008 PIERS. Reproduced in accordance with the publisher's self-archiving policy.en
dc.subjectBiological tissuesen
dc.subjectElectromagnetic fielden
dc.subjectMobile radio frequencyen
dc.subjectFinite-Difference Time-Domainen
dc.subjectFDTDen
dc.titleMicroscopic biological cell level model using modified finite-difference time-domain at mobile radio frequencesen
dc.status.refereedYesen
dc.typeArticleen
refterms.dateFOA2018-07-18T02:08:13Z


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