Numerical study of RF magnetic field, specific absorption rate and signal to noise ratio in high field MRI

Wang, Chunsheng,

January 2006

Thesis (Ph. D.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.

Electromagnetic resonances of metallic bodies.

Lintz, William A.

January 1997

Thesis (M.S. in Electrical Engineering) Naval Postgraduate School, June 1997. / Thesis advisors, Richard W. Adler, Jovan E. Lebaric. Includes bibliographical references (p. 45). Also available online.

High frequency electromagnetic scattering prediction and scattering feature extraction

Zhou, Yong, 1971-

01 February 2011

Three related electromagnetic scattering problems, namely, high frequency electromagnetic (EM) ray tracing, scattering feature extraction, and inverse scattering are studied in this dissertation. New approaches are presented to advance the state of the art in each of the areas. The presented study in electromagnetic ray tracing leads to an alternative ray tracing algorithm which can outperform the traditional algorithms for complex targets. The performance of the proposed techniques demonstrates their potential application to the study of high-frequency EM scattering prediction. Second, a genetic algorithm (GA)-based algorithm with an adaptive-feeding technique is developed to simultaneously extract both scattering centers and resonances. Scattering feature extraction algorithms are then developed with the consideration of the visibility of scattering centers. Inverse scattering problems with strong multiple scattering effects are also studied. A GA-based method is presented to invert the shapes with multiple scattering effects. An approach combining hybrid GA with the tabu list idea are then developed to further improve the performance of the GA-based inversion algorithms. / text

Scattering feature extraction

Inverse scattering

Effect of Low Frequency Electromagnetic Fields on [³H]Glucose Uptake in Rat Tissues

Sierón, A., Brus, H., Konecki, J., Cieślar, G., Szkilnik, R., Nowak, P., Noras,, Kwieciński, A., Kostrzewa, R. M., Brus, R.

23 April 2007

The aims of this study were to evaluate the influence of an extremely low-frequency electromagnetic field (ELF-EMF) on [3H]glucose uptake in the peripheral tissues and organs of rats. Rats were exposed to ELF-EMF (frequency-10 Hz, induction -1.8-3.8 mT) one hour daily for 14 consecutive days. Control animals were sham exposed. On the 15th day (24 hours after last exposure) rats were injected with D-[3H]-6-glucose 500μCi/kg IP. Fifteen minutes later animals were sacrificed by decapitation and peripheral tissues were excised and examined for radioactivity (desintegrations per minute, DPM/ 100 mg wet tissue weight), which expressed [3H]glucose uptake. In most of the examined tissues and organs, such as liver, kidney, heart muscle, cartilage, connective tissue, tendon and skin, [3H]glucose uptake in ELF-EMF-exposed animals was significantly higher as compared to that in the sham control. Exposure to ELF-EMF did not influence [3H]glucose uptake in the thoracic aorta and the skeletal muscle. It is concluded that ELF-EMF impacts tissue glucose uptake by facilitating glucose transport via cell membranes, dependent and probably also independent of its role in increasing insulin action in insulin-dependent tissues.

[H]glucose 3

rats

tissues

Biomedical Sciences

Development of the VHP-Female Full-Body Computational Model and Its Applications for Biomedical Electromagnetic Modeling

Yanamadala, Janakinadh

28 January 2015

Computational modeling offers better insight into a wide range of bioelectrical and biomechanical problems with improved tools for the design of medical devices and the diagnosis of pathologies. Electromagnetic modeling at low and high frequencies is particularly necessary. Modeling electromagnetic, structural, thermal, and acoustic response of the human body to different internal and external stimuli is limited by the availability of numerically efficient computational human models. This study describes the development to date of a computational full-body human model - Visible Human Project (VHP) - Female Model. Its unique feature is full compatibility both with MATLAB and specialized FEM computational software packages such as ANSYS HFSS/Maxwell 3D. This study also describes progress made to date in using the newly developed tools for segmentation. A visualization tool is implemented within MATLAB and is based on customized version of the constrained 2D Delaunay triangulation method for intersecting objects. This thesis applies a VHP - Female Model to a specific application, transcranial Direct Current Stimulation (tDCS). Transcranial Direct Current Stimulation has been beneficial in the stimulation of cortical activity and treatment of neurological disorders in humans. The placement of electrodes, which is cephalic versus extracephalic montages, is studied for optimal targeting of currents for a given functional area. Given the difficulty of obtaining in vivo measurements of current density, modeling of conventional and alternative electrode montages via the FEM has been utilized to provide insight into the tDCS montage performance. An insight into future work and potential areas of research, such as study of bone quality have been presented too.

low-frequency electromagnetic modeling

computational phantom

triangular surface meshes

mesh intersection

Visible Human Project® (VHP)

MATLAB®

Image segmentation

Effets sanitaires des champs électromagnétiques et tumeurs du système nerveux central / Health effects of electromagnetic fields and tumors of the central nervous system

Coureau, Gaëlle

09 December 2013

Contexte. Au cours du siècle, les expositions aux champs électromagnétiques se sont multipliées avec l'électricité et les moyens de télécommunications. En 2002, les champs électromagnétiques d'extrêmement basse fréquence (CEM-EBF) ont été classés comme possiblement cancérogène pour l'homme, suivis des radiofréquences en 2011. A ce jour, ce rôle cancérigène reste controversé. L'association entre les tumeurs cérébrales (TC) et l'exposition aux champs électromagnétiques a été étudiée dans une étude cas-témoins, CERENAT. Méthodes. Les sujets de plus de 16 ans, résidant dans quatre départements français, avec un diagnostic de TC posé en 2004-2006 ont été inclus, ainsi que 2 témoins appariés par cas. Le calendrier professionnel détaillé et l'utilisation du téléphone portable (TP) ont été recueillis dans un questionnaire standardisé lors d'un entretien en face-à-face afin d'estimer l'exposition aux CEM-EBF (par l'application d'une matrice emploi-exposition), et aux radiofréquences. Résultats. L'étude a inclus 596 cas et 1192 témoins. Aucune association n'a été observée entre l'exposition aux CEM-EBF et les gliomes ou les méningiomes. Pour les neurinomes, le risque augmentait avec l'exposition, non significativement, atteignant un rapport de cotes (RC)=2,7 [0,8-9,0] pour une exposition moyenne sur la vie ≥ 0,2μT. Par ailleurs, l'usage régulier du TP (O/N) n'était pas associé aux TC (RC=1,1 [0,8-1,4]). Cependant, une association significative était observée pour les gliomes chez les plus grands utilisateurs pour une durée cumulée des appels ≥ 896 heures (RC=2,3 [1,4-3,8]). Les risques étaient plus élevés pour les tumeurs temporales, l'utilisation professionnelle et l'utilisation urbaine du téléphone. Conclusion. Nos résultats vont dans le sens des études antérieures, montrant une association entre les tumeurs cérébrales et l'utilisation importante du TP; et l'absence d'association avec l'exposition aux CEM-EBF. Cependant, le lien entre CEM-EBF et neurinomes reste à explorer, de même que le suivi à plus long terme des effets du TP. / Context. During the century, exposure to electromagnetic fields have increased with electricity and telecommunications facilities. In 2002, extremely low frequency electromagnetic fields (ELF-EMF) have been classified as possibly carcinogenic to humans, followed by radiofrequencies in 2011. To date, this carcinogenic role remains controversial. We investigated the association between brain tumors and exposure to electromagnetic fields in a case-control study, CERENAT. Methods. Subjects over 16 years, living in four French areas, with a diagnosis of brain tumor in 2004-2006 were included, with 2 matched controls per case. The detailed occupational history and mobile telephone use were collected in a standardized questionnaire during a face- to-face interview to estimate exposure to ELF-EMF (using job-exposure matrix) and to radiofrequencies. Results. The study included 596 cases and 1192 controls. No association was observed between exposure to ELF-EMF and gliomas or meningiomas. For neuromas, the risk increased with exposure, not significantly, reaching an odds ratio (OR)=2.7 [0.8 - 9.0] for a life-long mean exposure ≥ 0.2 μT. Moreover, regular use of mobile phone (Y/ N) was not associated with brain tumor (OR=1.1 [0.8 - 1.4]). However, a significant association was observed for gliomas in the heaviest users when considering a life-long cumulative duration of calls ≥ 896 hours (OR=2.3 [1.4 - 3.8]). Risks were higher for temporal tumors, occupational or urban mobile phone use. Conclusion. Our results are consistent with previous studies showing an association between brain tumors and the extensive use of MP, and no association with exposure to ELF-EMF. However, the association between ELF-EMF and neuromas remains to be explored, as well as the follow of mobile phone effects in the long term.

Tumeur du système nerveux central

Champs électromagnétiques

Radiofréquences

Matrice emploi-exposition

Brain tumor

Electromagnetic fields

Radiofrequency electromagnetic fields

Job-exposure matrix

Design and Modelling of a Novel Hybrid Vibration Converter based on Electromagnetic and Magnetoelectric Principles

Bradai, Sonia

13 May 2019

Supplying wireless sensors from ambient energy is nowadays highly demanded for a higher flexibility of use and low system maintenance costs. Vibration sources are thereby especially attractive due to their availability and the relatively high energy density they can provide. The aim of this work is to realize a hybrid energy converter for vibration sources having low amplitude and low frequency. The idea is to combine two diverse harvesters to realize a higher energy density and at the same time to improve the converter reliability. We focus on the design, modeling, and test of the hybrid vibration converter. For an appropriate converter design, the vibration profiles of several ambient vibration sources are characterized. The results show that the typical frequency and acceleration ranges are between 5 Hz to 60 Hz and 0.1 g to 1.5 g respectively. The proposed converter is based on the magnetoelectric (ME) and electromagnetic (EM) principles. These two principles can be easily combined within almost the same volume, because they generate energy form the same varying magnetic field coupled to the mechanical vibration of the source. Thereby, the energy density is improved as the ME converter is incorporated within the relatively large coil housing of the electromagnetic converter. The proposed converter is based on the use of a magnetic spring instead of the typically used mechanical springs, which applies the repulsive force to the seismic mass of the converter. The applied vibration is transmitted to the converter based on the magnetic spring principle instead of the conventional mechanical springs. Due to the nonlinearity of the magnetic spring, the converter is able to operate for a frequency bandwidth instead of resonant frequency which is the case while using a mechanical spring. Hence, this leads to realize a high converter efficiency even under random vibrations characterized by frequency bandwidth. As well, using magnetic spring principle enables to adjust the resonant frequency of the converter relative to the applied vibration source easily by just adjusting the moving magnet size. For the converter design, a parametric study is conducted using finite element analysis. Two main criteria are thereby taken into account, which are the compactness and the efficiency of the converter. Parameters affecting these two criteria are classified in mechanical, electromagnetic and magnetoelectric parameters. Results show that the combination of the EM and ME principles leads to an improvement of the energy output compared to a single EM or ME converter. The novel hybrid converter is realized and tested under harmonic and real vibration profiles. It comprises two main parts: A fixed part, where the coils and the ME transducer are fixed in order to ensure a good reliability of the converter by avoiding wire movements. A moving part, where the moving magnet of the magnetic spring and the magnetic circuit are placed. The presented converter is reliable and compact, which is able to harvest energy with a maximum output power density of 0.11 mW/cm³ within a frequency bandwidth of 12 Hz for a resonance frequency of 24 Hz under an applied harmonic vibration with an amplitude of 1 mm. / Die Versorgung von drahtlosen Sensoren aus der Umgebungsenergie ermöglicht heutzutage eine hohe Einsatzflexibilität und die Senkung des Systemwartungsaufwands. Schwingungsquellen sind aufgrund ihrer Verfügbarkeit und der damit erreichbaren Energiedichte besonders attraktiv. Ziel dieser Arbeit ist es, einen hybriden Energiewandler für Vibrationsquellen mit geringer Amplitude und niedriger Frequenz zu realisieren. Der Ansatz dabei ist, zwei verschiedene Wandler zu kombinieren, um eine höhere Energiedichte zu erreichen und die Zuverlässigkeit zu verbessern. Der Entwurf konzentriert sich auf die Modellierung und den Test des hybriden Vibrationswandlers. Für einen geeigneten Wandlerentwurf werden die Schwingungsprofileigenschaften mehrerer Umgebungsschwingungsquellen untersucht. Die Ergebnisse zeigen, dass die typische Frequenz zwischen 5 Hz und 60 Hz und der Beschleunigungsbereich zwischen 0,1 g und 1,5 g liegen. Der vorgeschlagene Wandler kombiniert das magnetoelektrischen (ME) Prinzip mit dem elektromagnetischen (EM) Prinzip. Diese beiden Prinzipien können innerhalb des fast gleichen Volumens leicht integriert werden, da sie Energie aus der Variation des gleichen Magnetfeldes, das mit der mechanischen Schwingung gekoppelt ist, erzeugen können. Dadurch wird die Energiedichte verbessert, da der ME-Wandler in das relativ große Spulengehäuse des elektromagnetischen Wandlers eingesetzt werden kann. Darüber hinaus basiert der vorgeschlagene Wandler auf der Verwendung von Magnetfedern, um die Repulsivkraft auf die seismische Masse zu realisieren. Aufgrund der Nichtlinearität der Magnetfeder, kann der Wandler in einem breiteren Frequenzbereich betrieben werden, anstatt nur bei der Resonanzfrequenz, wie es bei der Verwendung einer mechanischen Feder der Fall ist. Dies führt dazu, dass der Wandler auch bei zufälligen breitbandigen Schwingungsquellen effizient betrieben werden kann. Darüber hinaus ermöglicht die Verwendung des Magnetfederprinzips eine einfache Einstellung der Resonanzfrequenz des Wandlers in Bezug auf die Schwingungsquelle, durch Einstellen der Größe des beweglichen Magneten. Für den Wandlerentwurf wird eine Parameterstudie mit Hilfe der Finite-Elemente-Analyse durchgeführt. Zwei Hauptkriterien werden dabei berücksichtigt: Die Kompaktheit und die Energieeffizienz des Wandlers. Parameter die diese beiden Kriterien beeinflussen, können in mechanische, elektromagnetische und magnetoelektrische unterteilt werden. Die Ergebnisse haben gezeigt, dass die Kombination der EM- und ME-Prinzipien zu einer Verbesserung der Energieausbeute im Vergleich zu einem einzelnen EM- oder ME-Wandler geführt hat. Der neuartige Hybrid-Wandler wurde realisiert und unter harmonischen und realen Schwingungsprofilen getestet. Der Wandler besteht aus zwei Hauptteilen: Ein festes Teil, an dem die Spulen und der ME-Wandler befestigt sind, um eine hohe Zuverlässigkeit zu gewährleisten indem auf einen beweglichen Draht verzichtet wird, und ein bewegliches Teil, das sich aus einem beweglichen Magneten zusammensetzt. Der vorgestellte Wandler ist zuverlässig, kompakt und in der Lage, Energie mit einer maximalen Ausgangsleistungsdichte von 0,11 mW/cm 3 und einer Bandbreite von 12 Hz bei einer Resonanzfrequenz von 24 Hz unter einer angelegten harmonischen Schwingung mit einer Amplitude von 1 mm zu gewinnen.

info:eu-repo/classification/ddc/600

ddc:600

info:eu-repo/classification/ddc/620

ddc:620

Energy Harvesting; Niederfrequenz

Likvidace biotických škůdců prostřednictvím EMW záření / Disposal of Biotic Pests by EMW Radiation

Sobotka, Jindřich

January 2015

The possibility of using high-frequency electromagnetic radiation in the construction sector is a common knowledge. Various experiments have been carried out to dry construction materials, or even to destroy biotic pests. However, the majority of these experiments have been executed in laboratory conditions. It means they have been carried out under exact limiting conditions, often very far off those conditions in real building practice. Therefore, this dissertation aims at exploring the possibility of utilizing microwave technology in drying and heating of construction materials, in disposing of biotic pests and sterilizing building materials under real conditions in building practice. The thesis will explain that microwaves are a term given to a part of electromagnetic radiation. Electromagnetic radiation is based on the principle that the radiated energy is absorbed by water molecules present in moist building material. In the mass of the irradiated material, the radiated energy is transformed into thermal energy, where a so-called “motion” of water molecules occurs with the energy then being transformed into kinetic energy. The microwave technology itself offers a very wide range of use, which can be easily achieved, thus making the technology available to use in the future. Part of the experiments and the necessary measurements, too, has been carried out on selected types of building materials in the premises of the Faculty of Civil Engineering of Brno University of Technology. They have been executed under conditions which most closely correspond to the conditions in real buildings. Part of the experiments and the necessary measurements were carried out on particular constructions, by the so-called in situ method. As stated in the conclusion of the dissertation, laboratory measurements and the in situ measurements differ considerably in some cases.