2008/2
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Recent Submissions
- ItemUser Interaction with Inverted-F Antennas Integrated into Laptop PCMCIA Cards(Společnost pro radioelektronické inženýrství, 2008-06) Guterman, Jerzy; Moreira, Antonio A.; Peixeiro, Custodio; Rahmat-Samii, YahyaThis paper evaluates the overall laptop integration effects on the performance of commercial 2.4 GHz Inverted-F antennas built into PCMCIA cards. A generic laptop model is used to represent the antenna housing effects while an anatomical shape homogenous human model is used to estimate the electromagnetic interaction between the antenna and the user. The antenna performance is evaluated for different card locations in terms of reflection coefficient, far-field gain pattern and radiation efficiency. The human exposure to EM radiation is analyzed in terms of Specific Absorption Rate.
- ItemContactless Area Measurement (Contactless Planimeter)(Společnost pro radioelektronické inženýrství, 2008-06) Ricny, Vaclav; Stancik, PetrThe paper describes the designed hardware and software systems (so-called planimeters) for contactless measurement of areas (eventually geometric distances between two selected points) of planar projections of various objects. These systems operate on the principle of processing the video signal scanned by a digital camera (or TV camera).
- ItemAnalysis of Highly Directive Cavity-Type Configurations Comprising of Low Profile Antennas Covered by Superstrates(Společnost pro radioelektronické inženýrství, 2008-06) Farahat, Nader; Mittra, Raj; Lugo, Katherine; Ma, Lai-Ching; Gomez, Rodney A.In this paper we present a technique for designing antenna/superstrate composites to produce enhanced directivities. As a first step, we study the underlying mechanism that governs the performance of theses antennas by studying the canonical problem of a line source in a rectangular waveguide. The above problem is solved by constructing the Green’s function corresponding to the line source in the rectangular guide, one of whose walls is partially reflecting, that is can leak electromagnetic energy into the space external to the guide. The Green’s function for this problem can be constructed by aggregating the multiple reflections from the two walls. Although the above model is only two-dimensional, we show that it can be used to predict the performance of antenna/superstrate composites. We demonstrate this by modeling several highly directive antennas and show that indeed the required characteristics of this type of antennas can be determined from the analysis of the cutoff behavior of the rectangular guide.
- ItemLocal Positioning Services on IEEE 802.11 Networks(Společnost pro radioelektronické inženýrství, 2008-06) Vegni, Anna Maria; Di Nepi, Alessandro; Neri, Alessandro; Vegni, ClaudioThis paper deals with localization services in IEEE 802.11 networks, for indoor environment. The proposed solution processes the Time Of Arrival of location packets sent by a Mobile Terminal, that makes access in a IEEE 802.11 network. A set of Location Supporting Nodes and a Location Support Server composes an indoor location services architecture. A fully compatible IEEE 802.11 Localization Services protocol supporting data exchange related to both TOA measurement and processing is reported. Simulation results show the method efficiency in both IEEE 802.11 PCF and DCF modes. Assessment of the maximum number of users for which location services can be provided is also reported. Since high localization accuracy requires large bandwidth, a broadband antenna for LSN and LSS was designed. The related results are reported in the second part of the paper. The antenna works at 5.0 GHz (centre frequency) in broadband mode and is matched on the wireless operating frequencies with a percentage more than 8% (1:1.5 VSWR).
- ItemPatch Antenna Based on Metamaterials for a RFID Transponder(Společnost pro radioelektronické inženýrství, 2008-06) Ugarte-Munoz, Eduardo; Herraz-Martinez, Francisco Javier; Gonzalez-Posadas, Vicente; Segovia-Vargas, DanielIn this paper a self-diplexed antenna is proposed for a RFID transponder application. The development cycle is divided into two stages: antenna design and filters design. The antenna is based on a square microstrip patch filled with metamaterial structures. The inclusion of these structures allows simultaneous operation over several frequencies, which can be arbitrarily chosen. The antenna working frequencies are chosen to be 2.45 GHz (receiver) and 1.45 GHz (transmitter). In addition, the antenna is fed through two orthogonal coupled microstrip lines, what provides higher isolation between both ports. Some filters based on metamaterial particles are coupled or connected to the antenna feeding microstrip lines to avoid undesired interferences. This approach avoids using of an external filter or diplexer, providing larger size reduction and a compact self-diplexed antenna.