Computer simulation and physical phantom models for estimating the dielectric properties of rhinoceros tissue

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dc.contributor.author Van Zyl, Floris J.
dc.contributor.author Marais, Johan
dc.contributor.author Nieuwoudt, Martin
dc.contributor.author Niesler, Thomas
dc.date.accessioned 2020-07-13T06:33:20Z
dc.date.available 2020-07-13T06:33:20Z
dc.date.issued 2019-05-29
dc.description S1 Table. Physical attributes used to determine the degree of similarity between the rhinoceros and various animals. en_ZA
dc.description.abstract In vivo and ex vivo sensors have the potential to aid tracking and anti-poaching endeavours and provide new insights into rhinoceros physiology and environment. However, the propagation of electromagnetic signals in rhinoceros tissue is currently not known. We present simulation and agar models of the rhinoceros that allow the investigation of electromagnetic propagation by in vivo and ex vivo devices without the need for surgery. Since the dielectric properties of rhinoceros tissue have not been documented, the conductivity and permittivity of the skin, fat, muscle, blood and other organs are first approximated by means of a meta-analysis that includes animals with similar physical properties. Subsequently, we develop anatomical models that include dermal layers, internal organs and a skeleton. We also develop a flank model that serves as an approximation of the anatomical model in certain situations. These models are used to determine the viability of communication between an in vivo device and an ex vivo device attached to the hind leg of the animal. Two types of antenna (microstrip-fed planar elliptical monopole antenna and printed inverted-F antenna) and three feasible implant locations (back, neck and chest) are considered. In addition to the computer models, phantom recipes using salt, sugar and agar are developed to match the dielectric properties of each tissue type at the industrial, scientific and medical (ISM) frequencies of 403MHz, 910MHz and 2.4GHz. The average error between the measured and theoretically predicted dielectric values was 6.22% over all recipes and 4.49% for the 2.4 GHz recipe specifically. When considering the predicted efficiency of the transmitting and receiving antennas, an agreement of 67.38% was demonstrated between the computer simulations and laboratory measurements using the agar rhinoceros flank models. Computer simulations using the anatomical model of the rhinoceros indicate that the chest is the optimal implant location and that best signal propagation is achieved using the planar inverted-F antenna (PIFA). Using this configuration, the simulations indicate that communication between the implant and an ex vivo device attached to the hind leg is challenging but possible. Furthermore, we find that the inclusion of factors such as the density and temperature of the phantom materials were found to be critical to the achievement of good agreement between practice and simulation. en_ZA
dc.description.department Paraclinical Sciences en_ZA
dc.description.librarian hj2020 en_ZA
dc.description.sponsorship The South African National Research Foundation (NRF) and the South African Centre for Epidemiological Modelling and Analysis (SACEMA). en_ZA
dc.description.uri http://www.plosone.org en_ZA
dc.identifier.citation Van Zyl, F.J., Marais, J., Nieuwoudt, M. et al. Computer simulation and physical phantom models for estimating the dielectric properties of rhinoceros tissue. PLoS ONE 2019, 14(5): e0216595. https://DOI.org/10.1371/journal.pone.0216595. en_ZA
dc.identifier.issn 1932-6203 (online)
dc.identifier.other 10.1371/journal.pone.0216595
dc.identifier.uri http://hdl.handle.net/2263/75159
dc.language.iso en en_ZA
dc.publisher Public Library of Science en_ZA
dc.rights © 2019 Van Zyl et al. This is an open access article distributed under the terms of the Creative Commons Attribution License. en_ZA
dc.subject Computer simulation en_ZA
dc.subject Physical phantom models en_ZA
dc.subject Dielectric properties en_ZA
dc.subject Rhinoceros tissue en_ZA
dc.title Computer simulation and physical phantom models for estimating the dielectric properties of rhinoceros tissue en_ZA
dc.type Article en_ZA


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