Global ETD Search

21	Interaction between the Radiation of LTE MIMO Antennas in a Mobile Handset and the User´s Body Zhao, Kun January 2012 (has links) Due to the great demand for high-speed wireless communication, Multi Input Multi Output (MIMO) antenna systems have been attracted rapidly increased attention. Therefore, the interaction between human body and MIMO antenna becomes an important issue, which will be studied in the present thesis. This thesis mainly focuses on the specific absorption rate (SAR) of the LTE MIMO antenna in mobile phone. It is different from the SISO antenna, and as the MIMO antenna has more operation modes and functions (MIMO, SISO, beam forming, etc.), more parameters need to be investigated for the SAR of the antenna. In this thesis, four designs of dual elements MIMO antenna (dual semi ground free PIFA, co-located antenna, dual OG PIFA in parallel position and dual OG PIFA in orthogonal position) are studied under four typical LTE frequency points (0.75GHz, 0.85GHz 1.9Ghz and 2.1/2.6GHz), with the effects of different chassis lengths (90mm, 110mm, 130mm and 150mm), the port’s states (terminated with 50ohm, open or short) and phase difference (0 degree to 360 degree). The SAR, when dual elements operate simultaneously, is also studied, which is evaluated by the SAR to PEAK Location Spacing Ratio (SPLSR). The simulations are run on both a SAM head phantom and a flat phantom by CST 2011, and measurements on flat phantom are carried out with iSAR and Dasy to verify the accuracy of our simulations. Besides SAR, the body loss of MIMO and SISO LTE antennas (MIMO: dual semi ground free PIFA and co-located Antenna; SISO: OG PIFA on top and OG PIFA at the bottom) in mobile phones are also studied in this thesis. The body loss and multiplex efficiency (MUX) with head and hand (H+H) in an increased cell phone case length (110mm, 130mm and 150mm) are investigated and discussed. Furthermore, some prominent problems in body loss study (body loss reduction, right and left hand problem, etc.) are also discussed in this thesis. MIMO Specific Absorption Rate Body Loss Multiplex Efficiency LTE Mobile Elektroteknik och elektronik
22	Surface Effects on Critical Dimensions of Ferromagnetic Nanoparticles Chaudhary, Vartika 26 August 2014 (has links) No description available. Physics Ferromagnetic nanoparticles Critical dimensions Specific absorption rate Surface effects Nanoparticles heating process Superparamagnetic
23	The Electromagnetic Simulation of Birdcage Coils for MRI based on Finite Element Method Tadesse, Yonatan Abebe January 2016 (has links) No description available. Electrical Engineering Birdcage Coil Radio Frequency Low-pass High-pass Field homogeneity Specific Absorption Rate Optimal Capacitance Current distribution
24	Simulações da SAR em virtude da exposição por tablets operados próximo à cabeça Ferreira, Juliana Borges January 2016 (has links) A grande maioria da população mundial está crescentemente exposta à radiação eletromagnética proveniente de fontes que muitas vezes estão localizadas nas proximidades do corpo. A radiação eletromagnética é considerada um agente possivelmente cancerígeno para as pessoas, classificação 2B indicada pela Organização Mundial da Saúde-OMS (WHO/IARC, 2011). Devido às preocupações em relação aos riscos associados a esta exposição existem normas que recomendam os valores máximos de exposição permitidos (ICNIRP, 1998; FCC, 2001). A correta avaliação das doses de radiação é, portanto, relevante. Este trabalho tem a finalidade de avaliar o impacto dos resultados do cálculo da dose da Taxa de Absorção Específica (SAR) em usuários expostos a radiação por tablets operando na faixa de radiocomunicações Wi-fi. Os três modelos existentes de cabeça humana utilizados serão um manequim homogêneo SAM phantom e dois modelos de cabeça realistas heterogêneos: um adulto masculino e uma criança masculina. Será também utilizado nas simulações um modelo masculino de criança que foi desenvolvido através de imagens de tomografia computadorizada (TC) pelo processo de segmentação feito no software AMIRA. Será utilizado um modelo genérico de tablet. Os parâmetros dosimétricos usados para simulação da SAR serão computados pelo software SEMCAD X que é baseado no Método das Diferenças Finitas no Domínio do Tempo (FDTD). Será criado também um código do Método FDTD através do software MATLAB que servirá para a escolha dos parâmetros do SEMCAD X. A distância entre o tablet e os modelos de cabeças varia de 50 mm a 300 mm. Os resultados da SAR serão comparados com os limites de exposição recomendados pelas normas internacionais. Também serão simuladas diferentes posições da antena no tablet. Da análise dos resultados foi constatado que os valores de SAR são muito baixos e todos os resultados ficaram dentro dos limites do psSAR recomendados pela FCC de 1,6 W/kg em cada 1 g de tecido e de 2 W/kg em cada 10 g de tecido estabelecidos pela ICNIRP. Comparando os valores de SAR do modelo SAM com o modelo DUKE, o modelo SAM se mostra conservador, porém quando a comparação é feita com as crianças o SAM deixa de ser conservador. / The vast majority of the world population is increasingly exposed to electromagnetic radiation from sources which are often located near to the body. Electromagnetic radiation is considered a possible carcinogen for people, classification 2B indicated by the World Health Organization-WHO (WHO/IARC, 2011). Due to concerns regarding the risks associated with this exposition there are regulations suggesting maximum allowed exposure values (ICNIRP, 1998; FCC, 2001). The correct evaluation of radiation doses is therefore relevant. This work aims to assess the impact of the results of the calculation of Specific Absorption Rate dose (SAR) in users exposed to radiation from tablets operating in the Wi-fi band. The three existing models of human head used are a homogeneous dummy SAM phantom and two heterogeneous realistic head models: a male adult and a male child. It will also be used in the simulations a male child model which was developed from computed tomography (CT) imaging using the AMIRA software for the segmentation process. A generic model of tablet is used. Dosimetric parameters used for simulation of the SAR are computed using the SEMCAD X software which is based on the Finite Difference Method in Time Domain (FDTD). A FDTD code was developed using the MATLAB software in order to help to choose the input SEMCAD X parameters. The distances between the tablet and the head of the models varies from 50 mm to 300 mm. SAR results are compared with the exposure limits recommended by international standards. Different antenna positions on the tablet are simulated too. Examining the results it was found that the SAR values are very low and all results are within the psSAR limits recommended by FCC (1,6 W/kg averaged over 1 g of tissue) and by ICNIRP (2 W/kg in 10 g of tissue). Comparing the SAR in the SAM model with the SAR in the DUKE model, the SAM model shows to be conservative. However, when compared with the children, the SAM is not conservative. Tablet Radiação eletromagnética Dosimetria Taxa de absorção específica Dosimetry Segmentation Tablets Non-ionizing radiation (NIR) Specific absorption rate (SAR) Specific anthropomorphic mannequin (SAM)
25	Contribution to the study and minimizing the impact of electromagnetic waves on the human body : Application in the field of mobile telephony / Contribution à l'étude et à la minimisation de l'impact des ondes électromagnétiques sur le corps humain : Application dans le domaine de la téléphonie mobile Nasser, Najat 14 December 2018 (has links) Dans cette thèse, nous proposons des modifications de conception d’antenne PIFA concernant la téléphonie mobile afin de réduire le taux de pénétration des ondes électromagnétiques dans la tête. Trois antennes ont été considérées: une antenne PIFA à bande unique fonctionnant à 1,8 GHz, une antenne PIFA à bande double fonctionnant à 900 MHz et à 1,8 GHz, et une antenne PIFA tri-bande à 900 MHz, 1800 MHz et 2400 MHz. La densité de courant de surface le long du plan de masse a été réduite en diminuant le rayonnement du champ électrique émis par l’antenne émettrice vers le corps, ce qui a entraîné une réduction de la densité de courant le long de la tête humaine ainsi que du SAR. Cette réduction du SAR a été réalisée en insérant plusieurs traitements de bords tels qu'une forme en U à chaque coin du plan de masse de l'antenne. Nous avons étudié trois types des antennes : la première, lorsque les bords U sont constitués de PEC, nous obtenons une réduction du SAR de 78,6%. La seconde utilise un type de liquide considéré comme absorbant. Avec ce liquide, deux antennes ont été analysées: une PIFA à bande unique fonctionnant à 1,8 GHz et une PIFA à bande double fonctionnant à 900 MHz et à1,8 GHz. Dans ce scénario, le bord en U est constitué d’eau, et nous avons constaté que la valeur maximale du SAR moyen sur 10 g de tissu était réduite à 73,52% pour une PIFA à bande unique, tandis que le pic de SAR a été réduit à 88,78% et 90,31% en cas de double bande. Afin de préserver la hauteur de l'antenne et de la rendre plus réaliste, un autre type d’antenne a été modélisé en insérant des arêtes en forme de U à chaque extrémité du plan de masse. Dans ce cas, la réduction du SAR a été la suivante: 74,5% à 1800 MHz pour une bande unique et environ 64,37%, 79,92% et 54,71% à 900 MHz, 1800 MHz et 2400 MHz pour une antenne tri-bande, et pour une moyenne de masse de tissu égale à 10g. Dans une dernière partie, cette thèse propose une antenne optimisée pour des transmissions de la station de base vers l'utilisateur d’un téléphone mobile, en exploitant la bande GSM-900. L’objectif principal de cette étude est de fournir une intensité de champ constante sur la surface de couverture, afin de minimiser certains effets biologiques considérés comme dangereux pour la santé humaine. / In this thesis, we propose new types of mobile handset PIFA antenna design to reduce the specific absorption rate (SAR) in human head. Three antennas were considered: a single band PIFA operating at 1.8 GHz, a dual band PIFA operating at 900 MHz and 1.8 GHz, and a Triband PIFA operating at 900MHz, GSM 1800MHz, and 2400MHz. Surface current density along the ground plane was decreased by reducing the near electric field radiation coming from the radiating antenna to the human head, which in turns leads to a reduction in current density along human head as well as the SAR. This SAR reduction is accomplished by inserting several edges treatment such as U-shape at each corner of the ground plane of antenna. In this scenario, we studied three types: first one, when U-edges are made of PEC, we get SAR reduction about 78.6%. Second one is a liquid type that is considered as more advanced type. For this type, two antennas are considered: a single band PIFA operating at 1.8 GHz, and a dual band PIFA operating at 900 MHz and 1.8 GHz. In this scenario, two cases were studied: first one when the U-edge is made of water, we noticed that the peak SAR value averaged over 10 g mass tissue was reduced to 73.52% in the case of single band PIFA, whereas the peak SAR was reduced to 88.78% and 90.31% in case of dual band. Second case, when U-edge filled with water, this enhanced structure was presented to overcome the manufacturing limitations of the first case design. Simulation results showed a better performance in terms of reflection coefficient and radiation pattern for both single-band and dual-band antennas. The results of SAR were also similar to the first case structure design for the single-band antenna. However, the SAR was slightly higher for the dual-band antenna, but it still remains very low (1.6 W/Kg at 900 MHz and 0.6 W/Kg at 1800 MHz). After that, for preserving the height of antenna, and making it more realistic to be applied, another type was done by inserting U-edges above each corner of the ground plane. In this case, we get SAR reduction as follows: 74.5% at GSM1800MHz in case of single band, and about 64.37%, 79.92%, and 54.71% at GSM900MHz, GSM1800MHz, and 2400 MHz in case of Tri-band averaged over 10g mass tissue. On the other hand, this thesis presents a modern and unprecedented safety antenna that transmits from the base station to the mobile user being operated at the GSM-900 band. The main objective of this study is to provide a constant field strength or a uniform coverage over a certain surface area, for preventing human health from several hazardous biological effects, and this strongly depends on the studied site (e.g. if it is densely urban, rural, open area, etc.). Our proposed design is synthesized using S.A.R.A (Synthesis of Array of Antenna) software. Besides, Atoll GSM planning tool is used to ensure the signal coverage and power strength for the safety antenna, and CST (Computer Simulation Technology) software for simulating the proposed antenna. Antenne PIFA Ondes électromagnétiques Débit d'absorption spécifique Téléphonie mobile Bio électromagnétisme PIFA antenna Electromagnetic waves Specific Absorption Rate Mobile telephony Bio electromagnetism 621.382 4
26	Internal Mobile Phone Antenna with Distributed LC Matching Circuit for Eight-band LTE/WWAN Operation Chen, Wei-Yu 09 June 2010 (has links) In this thesis, an internal mobile phone antenna with a distributed matching circuit for eight-band LTE/WWAN operation is presented. By selecting proper dimensions of the distributed matching circuit, the bandwidth of the proposed antenna can be greatly enhanced. Good radiation characteristics are also obtained, and the proposed antenna occupies only 60 ¡Ñ 10 ¡Ñ 3 mm^3 and is very suitable for slim mobile phone applications. Effects of the human body including user¡¦s head and hand are also studied, and the SAR and HAC issues are simulated and analyzed in this thesis. Internal mobile phone antennas Handset antennas Antennas LTE/WWAN antennas Specific absorption rate Distributed matching circuit Hearing aid compatibility Effects of human body
27	Tablet Computer Antenna Array for WWAN/LTE and LTE MIMO Operations Lyu, Chao-an 15 June 2011 (has links) A tablet computer antenna array for WWAN/LTE and LTE MIMO operations is proposed. The antenna array comprises a main antenna and an auxiliary antenna. The main antenna is an eight-band coupled-fed antenna, which can cover the GSM850/900/1800/1900/UMTS and LTE700/2300/2700 operations. The auxiliary antenna is a three-band antenna, which can cover the LTE700/2300/2500 operation and occupies a small size. Acceptable isolation between the main and auxiliary antennas has also been obtained, which makes it promising for the main and auxiliary antennas to perform LTE MIMO operation in the LTE700/2300/2500 bands. Effects of the internal tablet computer antenna on the user¡¦s body are also studied. The obtained results show that the antenna can meet the 1-g body SAR specification of less than 1.6 W/kg by selecting a proper distance between the antenna and the flat phantom. Also, since the user¡¦s body is a lossy material, a decrease in the antenna¡¦s radiation efficiency is observed when the user¡¦s body is in the vicinity of the internal antenna. SAR (Specific Absorption Rate) coupling feed LTE (Long Term Evolution) antennas multiband antennas tablet computer antennas
28	Body SAR Study of the WLAN Antennas for Tablet PC Application Ma, Pei-ji 17 June 2011 (has links) In this thesis, a comparison of the body SAR value of five planar WLAN antennas including two coupled-fed shorted monopole antennas, a coupled-fed loop antenna, a monopole antenna, and a monopole slot antenna for tablet PC applications are presented. A required minimum distance between the antenna and the testing flat phantom to meet the 1-g body SAR requirement of 1.6 W/kg has been determined. Results show that the body SAR results of the coupled-fed loop antenna are lowest among the five tested antennas. Detailed results and discussion are presented in this thesis. Also, a comparison of the body SAR value of a planar antenna and an antenna with 3-D bent structure are presented. Monopole slot antenna Shorted monopole antenna Loop antenna Tablet computer antennas Monopole antenna Specific absorption rate Mobile antennas Body SAR WLAN antennas
29	Bandwidth Enhancement of the LTE/WWAN Handset Antenna by Improving the Current Distribution in the System Ground Plane Kao, Yeh-chun 11 June 2012 (has links) Bandwidth enhancement of the LTE/WWAN handset antenna achieved by improving the excited surface current distribution in the system ground plane is presented. To achieve this goal, the system ground plane is shaped to be of a C-shape in this thesis. In this case, the longitudinal excited surface current in the system ground plane can have a smooth distribution. The proposed antenna is disposed at one edge of the C-shaped system ground plane, and the antenna comprises a driven monopole strip, a shorted monopole strip and a distributed parallel resonance (PR) circuit. By controlling the resonant frequency of the distributed PR circuit, it can result in dual-resonance excitation of the lowest resonant mode contributed by the shorted monopole strip to cover the LTE700/GSM850/900 operation. The antenna also occupies a small volume of 44 ¡Ñ 10 ¡Ñ 5 mm3 (about 2.2 cm3). Good radiation characteristics of the antenna are also obtained. For practical applications, effects of the electrical connection between the system ground plane and the surrounding metal elements such as the battery¡¦s metal casing and the handset metal midplate are studied. The simulated SAR (Specific Absorption Rate) and HAC (Hearing Aid Compatibility) results are also analyzed. LTE/WWAN antennas Mobile phone antennas Body effects Specific absorption rate Hearing aid compatibility
30	Parallel transmission for magnetic resonance imaging of the human brain at ultra high field : specific absorption rate control & flip-angle homogenization Cloos, Martijn Anton Hendrik 17 April 2012 (has links) (PDF) The focus of this thesis lies on the development, and implementation, of parallel transmission (pTx) techniques in magnetic resonance imaging for flip-angle homogenization throughout the human brain at ultra-high field. In order to allow in-vivo demonstrations, a conservative yet viable safety concept is introduced to control the absorbed radiofrequency (RF) power . Subsequently, novel methods for local SAR control and non-selective RF pulse-design are investigated. The impact of these short and energy-efficient waveforms, referred to as kT-points, is first demonstrated in the context of the small-tip-angle domain. Targeting a larger scope of applications, the kT-points design is then generalized to encompass large flip angle excitations and inversions. This concept is applied to one of the most commonly used T1-weighted sequences in neuroimaging. Results thus obtained at 7 Tesla are compared to images acquired with a clinical setup at 3 Tesla, validating the principles of the kT-points method and demonstrating that pTx-enabled ultra-high field systems can also be competitive in the context of T1-weighted imaging. Finally, simplifications in the global design of the pTx-implementation are studied in order to obtain a more cost-effective solution. Magnetic resonance imaging Parallel-transmission Transmit-SENSE Specific absorption rate Ultra-high field RF-pulse design

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