Oh ohmic losses in frequency selective surfaces at near-infrared wavelengths

Pryor, Jonothan B.

21 November 2003

No description available.

electromagnetics

Frequency Selective Surfaces

ohmic losses

finite conductivity

near-infrared wavelengths

bandpass filters

Periodic Moment Method

A curved single-layer FSS design for gain improvement of a compact size CPW-fed UWB monopole antenna

Daira, S.E.I., Lashab, M., Berkani, H.A., Belattar, M., Gharbia, Ibrahim, Abd-Alhameed, Raed

01 December 2023

Yes / A Novel design of a curved single-layered frequency selective surface with an 11 × 11 array of a 13 × 13 mm-sized unit cell has been merged with a miniaturized, CPW-fed ultra-wideband monopole of dimensions (20 × 25 mm2) for gain enhancement. The suggested prototype, crafted on an FR-4 dielectric substrate and demonstrates a very broad bandwidth starting from 2.66 to 17.98 GHz (148%), which covers the entire UWB frequency band. The combined antenna-curved FSS reflector shows a very important gain improvement from 0.2–5.4 dB to 8.8–14.9 dB, having a peak gain increase of 10 dB at 10.6 GHz. Basic design features were studied and discussed through simulations, yielding promising results The proposed structure can be used in UWB and GPR applications. / The full-text of this article will be released for public view at the end of the publisher embargo on 31 Oct 2024.

Coplanar waveguide

Frequency selective surface

FSS reflector

Gain enhancement

Stop-band filter

Ultra-wideband antenna

Wavelet Modulation in Gaussian and Rayleigh Fading Channels

Manglani, Manish

26 June 2002

Wavelet Modulation (WM)---also referred to as fractal modulation---simultaneously sends data at multiple rates through an unknown channel. This novel multirate diversity strategy offers improved message recovery over conventional modulation techniques: if the message is not received at one rate due to the channel disturbances, it can be received at another rate where the channel is clear. Previous research has demonstrated the performance of wavelet modulation in Gaussian channels. This paper extends the investigation to the performance of wavelet modulation in time varying channels. We show that bit error rate (BER) wavelet demodulation performance in the additive, white, Gaussian noise (AWGN) channel is comparable to theoretical binary phase shift keying. Our results depict the improvement in performance that can be realized for time varying channels by utilizing the various rates of wavelet modulation; BER versus SNR curves for each fading channel show how the message at one rate can be more accurately recovered than at another rate. Furthermore, we also present results indicating the dramatic improvement in wavelet demodulation performance when multiple rates are available and utilized for demodulation. This improvement in performance is highly visible in BER performance for the AWGN and flat fading channels. Finally, a comparison of binary phase shift keying (BPSK) and WM in a frequency selective channel is performed. The BER improvement of WM is shown when demodulation is done at rates which are least corrupted by ISI. We illustrate our new algorithm that: identifies the channel characteristics; determines which rates are maximally corrupted by ISI; and, utilizes only those uncorrupted copies in demodulation. / Master of Science

wavelet modulation

AWGN channel

wavelets

flat fading

fractal modulation

frequency selective fading

Impact of Channel Estimation Errors on Space Time Trellis Codes

Menon, Rekha

22 January 2004

Space Time Trellis Coding (STTC) is a unique technique that combines the use of multiple transmit antennas with channel coding. This scheme provides capacity benefits in fading channels, and helps in improving the data rate and reliability of wireless communication. STTC schemes have been primarily designed assuming perfect channel estimates to be available at the receiver. However, in practical wireless systems, this is never the case. The noisy wireless channel precludes an exact characterization of channel coefficients. Even near-perfect channel estimates can necessitate huge overhead in terms of processing or spectral efficiency. This practical concern motivates the study of the impact of channel estimation errors on the design and performance of STTC. The design criteria for STTC are validated in the absence of perfect channel estimates at the receiver. Analytical results are presented that model the performance of STTC systems in the presence of channel estimation errors. Training based channel estimation schemes are the most popular choice for STTC systems. The amount of training however, increases with the number of transmit antennas used, the number of multi-path components in the channel and a decrease in the channel coherence time. This dependence is shown to decrease the performance gain obtained when increasing the number of transmit antennas in STTC systems, especially in channels with a large Doppler spread (low channel coherence time). In frequency selective channels, the training overhead associated with increasing the number of antennas can be so large that no benefit is shown to be obtained by using STTC. The amount of performance degradation due to channel estimation errors is shown to be influenced by system parameters such as the specific STTC code employed and the number of transmit and receive antennas in the system in addition to the magnitude of the estimation error. Hence inappropriate choice of system parameters is shown to significantly alter the performance pattern of STTC. The viability of STTC in practical wireless systems is thus addressed and it is shown that that channel estimation could offset benefits derived from this scheme. / Master of Science

Transmit Diversity

Channel Estimation

Flat Fading

Frequency Selective Fading

Rayleigh Fading Channel

Adaptive, Turbo-coded OFDM

Ilunga, Lou

15 September 2005

Wireless technologies, such as satellite, cellular, and wireless internet are now commercially driven by ever more demanding consumers, who are ready for seamless integration of communication networks from the home to the car, and into the office. There is a growing need to quickly transmit information wirelessly and accurately. Engineers have already combine techniques such as orthogonal frequency division multiplexing (OFDM) suitable for high data rate transmission with forward error correction (FEC) methods over wireless channels. In this thesis, we enhance the system throughput of a working OFDM system by adding turbo coding and adaptive modulation (AD). Simulation is done over a time varying, frequency selective Rayleigh fading channel. The temporal variations in the simulated wireless channel are due to the presence of Doppler, a sign of relative motion between transmitter and receiver. The wideband system has 48 data sub-channels, each is individually modulated according to channel state information acquired during the previous burst. The end goal is to increase the system throughput while maintaining system performance under a bit error rate (BER) of 10-2. The results we obtained are preliminary. The lack of resources prevented us from producing detailed graphs of our findings. / Master of Science

doppler

frequency selective Rayleigh channel

adaptive modulation

turbo codes

target BER

Passive, active and absorbing frequency selective surfaces for wireless communication applications

Kiani, Ghaffer I (Ghaffer Iqbal)

January 2008

"March, 2009". / Thesis (PhD)--Macquarie University, Faculty of Science, Dept. of Physics & Engineering, 2008. / Bibliography: p. 145-158. / Introduction -- Frequency selective surfaces -- Absorb/transmit frequency selective surface absorber -- Switchable frequency selective surface for wireless applications -- Energy-saving glass characterisation -- Frequency selective surface solution for energy-saving glass -- Conclusion. / This thesis presents three topics related to frequency selective surfaces (FSSs), namely bsorb/transmit FSSs, active FSSs and passive bandpass FSSs for energy-saving glass used in modern buildings. These three FSSs are unique in their design and functionalities. The absorb/transmit FSS is a novel dual-layer frequency selective surface for 5 GHz WLAN applications. This FSS can stop propagation of specific bands by absorbing as opposed to re ecting, while passing other useful signals. This is in contrast to the conventional Salisbury and Jaumann absorbers, which provide good absorption in the desired band while the out-of-band frequencies are attenuated. The second topic is a single-layer bandpass active FSS that can be switched between ON and OFF states to control the transmission in 2.45 GHz WLAN applications. Previously, researchers have focused on the bandstop and dual-layer versions of the active FSS. This is in contrast to the design presented in this thesis which is single-layer and provides extra advantage in a practical WLAN environment. Also the dc biasing techniques that were used for the active FSS design are easier to implement and provide good frequency stability for different angles of incidence and polarisations in both ON and OFF states. The last topic is on the use of a bandpass FSS in energy-saving glass panels used in building design. The manufacturers of these glass panels apply a very thin metal-oxide coating on one side of the glass panels to provide extra infrared (heat) attenuation. However, due to the presence of the coating, these energy-saving glass panels also attenuate communication signals such as GSM 900, GSM 1800/1900, UMTS and 3G mobile signals etc. This creates a major communication problem when buildings are constructed with windows of this glass. In this thesis, a solution to this problem is presented by designing and etching a cross-dipole bandpass FSS on the coated side of the glass to pass the useful signals while keeping infrared attenuation at an acceptable level. One of the advantages of this FSS design is that measured material values of the metal-oxide coating are used for simulations, which have not been done previously. / Mode of access: World Wide Web. / 166 p. ill. (some col.)

Frequency selective surfaces

Electric filters, Active

Electric filters, Passive

Electric filters, Bandpass

Absorbers (Materials)

Diodes, Switching

Wireless communication systems

Wireless LANs -- Security measures

active

absorber

frequency selective surfaces

PIN diode

security

wireless communication

WLAN security

[en] DISTRIBUTED DETECTION IN FREQUENCY SELECTIVE CHANNELS AND ALGORITHMS FOR CENTRALIZED FUSION / [pt] DETECÇÃO DISTRIBUÍDA EM CANAIS SELETIVOS EM FREQUÊNCIA E ALGORITMOS PARA FUSÃO CENTRALIZADA

RODRIGO PEREIRA DAVID

30 April 2019

[pt] Este trabalho estuda o problema de detecção de hipóteses binárias em sistemas distribuídos com centro de fusão operando em presença de canais seletivos em frequência. O uso de uma técnica de múltiplo acesso, referida aqui como CS-CDMA, é proposta para comunicação ortogonal entre os nós e o centro de fusão, assim como detector ótimo Bayesiano para fusão de dados em tais sistemas distribuídos é obtido. Como a complexidade do detector ótimo cresce exponencialmente com o número de nós sensores, um receptor sub-ótimo de baixa complexidade que realiza uma detecção casada multi-usuário seguida de decisão pela regra da maioria é proposto e examinado neste trabalho. Técnicas para estimação de canal, cega e assistida, necessárias para a implementação prática da detecção casada são também propostas. Simulações indicam que este receptor, de baixa complexidade, possui um desempenho próximo ao receptor ótimo. Com o objetivo de se ampliar o desempenho do detector casado do centro de fusão, é examinado o uso de cooperação na rede de sensores. Resultados de simulações mostraram que, como esperado, o uso de cooperação em sistema distribuídos utilizando o esquema de múltiplo acesso CS-CDMA melhora o desempenho do decisor do centro de fusão, entretanto esse ganho de desempenho mostrou-se mais significativo em ambientes com poucos multipercursos, uma vez que os sistemas distribuídos CS-CDMA não-cooperativos propostos exploram eficientemente a diversidade de multipercurso. Finalmente, este trabalho propõe um procedimento de fusão adaptativa não-assistida para sistemas distribuídos com fusão centralizada. Simulações mostram que a estratégia de fusão adaptativa possui desempenho muito próximo ao da regra de fusão ótima. / [en] This work studies the problem of detecting binary hypotheses in distributed systems with a fusion center operating in frequency selective channels. The use of a multiple access technique, referred herein as Chip Spread- Code Division Multiple Access (CS-CDMA), is proposed for orthogonal communication between the nodes and the fusion center and the Bayesian optimum detector for data fusion for such distributed systems is obtained. As the complexity of the optimal detector grows exponentially with the number of sensor nodes, a sub-optimal low-complexity receiver that performs a multi-user matched detection followed by the majority rule is proposed and examined in this work. Blind and assisted techniques for channel estimation necessary for the practical implementation of the matched detection have also been proposed. Simulations indicate that this low complexity receptor has a performance close to the optimal receiver. In order to increase the performance of the matched detector of the fusion center, it was examined the use of cooperation in this sensor network. Simulation results showed that, as expected, the use of cooperation in the distributed system with a multiple access scheme CS-CDMA improves the performance of the fusion center, however, this performance increasing was more significant in environments with few multipath, since the non-cooperative CS-CDMA distributed systems proposed here, efficiently exploits the multipath diversity. Finally, this paper proposes a non-assisted adaptive fusion for distributed systems with centralized fusion. Simulations show that the adaptive fusion strategy has a performance very close to the optimal fusion rule.

[pt] FUSAO DE DADOS

[en] DATA FUSION

[pt] DETECCAO DISTRIBUIDA

[en] DISTRIBUTED DETECTION

[pt] CANAIS SELETIVOS EM FREQUENCIA

[en] FREQUENCY SELECTIVE CHANNELS

Techniques for pattern control of a dielectric rod antenna suitable for use in mobile communications

Cox, Gavin J.

January 2002

This thesis describes the development of antennas suitable for mobile coinmunication systems based on a dielectric rod antenna fed from circular waveguide. Pattern control of the antenna is implemented using a combination of Frequency Selective Surface (FSS) elements and metallic endcaps placed on the antenna Both linear and circular polarised feeds have been made for these antennas to ensure they are suitable for a wide range of applications. The suitability of the dominant and next, higher order, waveguide mode were investigated and conclusions drawn as to their suitability for this type of antenna. The antennas were extensively modelled using a commercial TLM based solver and the results of these simulations were compared to the comprehensive set of antenna pattern measurements and S-parameter measurements obtained for the prototype antennas.

621

Modélisation electromagnétique de structures périodiques et matériaux artificiels : application à la conception d'un radôme passe-bande / Electromagnetic modeling of periodic structures and artificial materials : application to a bandpass radom's conception

Nosal, Samuel

30 September 2009

Les surfaces sélectives en fréquence (FSS) pour la furtivité radar ou l’optique ont été largement étudiées. Depuis plus de vingt ans, des matériaux artificiels ont été conçus, permettant d’obtenir des propriétés particulières, notamment l’existence de bandes permises ou interdites, réfraction négative, ultra-réfraction. Par ailleurs, des antennes basées sur la mise en réseau d’un élément rayonnant sont plus compactes et plus facilement intégrables. Le problème de la diffraction d’une onde plane par des réseaux tridimensionnels bipériodiques peut être résolu par éléments finis ou par équations intégrales bipériodiques ; il l’est souvent par une méthode hybride combinant la méthode des éléments finis et la méthode aux équations intégrales. Nous avons choisi de développer une méthode hybride utilisant deux variantes de la méthode aux équations intégrales. Les domaines semi-infinis (l’extérieur du réseau) sont traités par des équations intégrales bipériodiques (EI3D2D), et les domaines bornés (l’intérieur du réseau) sont traités par des équations intégrales tridimensionnelles (EI3D), auxquelles on impose des conditions aux limites de pseudopériodicité. Ce code numérique est développé dans le cadre du code SPECTRE de Dassault-Aviation, qui est un code généraliste 3D, afin de bénéficier de la richesse des modèles qui y ont déjà été développés (modèle composé d’un nombre quelconque de sous-domaines de formes et de matériaux quelconques, traitement des différents cas de jonctions entre sous-domaines, matériaux de faible épaisseur). L’efficacité en termes de précision et en temps de calcul de la méthode numérique est validée par comparaison des résultats avec d’autres simulations numériques et également avec des résultats de mesures. Les cas testés sont représentatifs de plusieurs des principaux phénomènes liés aux métamatériaux : surfaces sélectives en fréquence, transmission « extraordinaire », surfaces à haute impédance. Enfin, nous étudions un radôme passe-bande indépendant à l’angle d’incidence, à l’aide de la méthode numérique que nous proposons. La structure retenue se base sur un réseau de cavités coaxiales dans une couche métallique. Nous expliquons l’origine physique des résonances qui apparaissent et nous suggérons une évolution géométrique du profil des cavités, afin d’augmenter la largeur de bande passante. / Frequency selective surfaces (FSS) for radar stealth or in optics have been widely studied. For more than two decades, articial materials have been designed to highlight specific behaviour, like the existence of allowed or forbidden bands, negative refraction, ultra-refraction... Moreover, antennas based upon an array of radiating elements improve the compactness and integration of these features. The problem of the diffraction of a plane wave by 3D biperiodic scatterers can be solved by finite-elements methods (FEM) or biperiodic boundary integral equations (BIE). It is often done by hybrid methods, that combine FEM and BIE. We choose to develop a hybrid method that uses two variants of the BIE method. Semiinfinite outer domains are treated by biperiodic integral equations (3D2D IE) and inner bounded domains are treated by 3D free-space integral equations (3D IE). Pseudoperiodic boundary conditions are enforced in the scattering biperiodic structure. The numerical code is developed in the framework of Dassault Aviation’s SPECTRE code, which is a general 3D code, in order to take advantage of the various models that have already been developed : arbitrary number of sub-domains of various shapes or materials, treatment of the different types of junctions between sub-domains, thin slabs. The efficiency in terms of accuracy and computation time of the numerical code is validated by comparison of the results from other numerical simulations or measurements. All the test cases are representative of several of the main phenomena that can be observed in metamaterials : FSS, “extraordinary” transmission, high-impedance surfaces. Finally, a bandpass radome which is independent to the angle of incidence is studied. The proposed numerical method is used. The chosen structure is based upon an array of coaxial cavities in a metallic slab. We explain the physical origin of resonances that appear and we suggest a geometrical evolution of the profile of the cavities, to favor a wideband behavior.

Structures bipériodiques

Métamatériaux

Surfaces sélectives en fréquence (FSS)

Equations intégrales

Biperiodic structures

Metamaterials

Frequency selective surfaces

Integral equations

Reconfigurable Band Rejection Frequency Selective Structures

Kula, Jeffrey Scott

04 September 2019

No description available.

Electrical Engineering

Electromagnetics

band rejection filters

band-pass filters

frequency selective structures

microstrip filters

periodic structures

reconfigurable

tunable