Redes de redistribuição de sinais a partir de redes de freqüência única (SFN)

Novaes, Carolina Duca

10 February 2010

Made available in DSpace on 2016-04-18T21:39:49Z (GMT). No. of bitstreams: 2 Carolina Duca Novaes1.pdf: 3168515 bytes, checksum: 4bc2a4d21f8e08b61653940548fcd0d3 (MD5) Carolina Duca Novaes2.pdf: 2186508 bytes, checksum: 51278edae485082fdb365b9e34ad3fda (MD5) Previous issue date: 2010-02-10 / This dissertation presents details of a structure needed to create a Single Frequency Network (SFN) using low-power transmitters, and a comparison with a network composed of a single transmitter with high power. Among the difficulties to implement networks which distribute signals in SFN, has prioritized the synchronization issue and equalization techniques to achieve better performance of this system. Thus, there was a theoretical research comparing the different methods of timing of single frequency networks and simulations of coverage and performance in order to discuss the implementation of such a network system in the Brazilian digital TV (SBTVD). / Este trabalho apresenta um detalhamento da estrutura necessária para se criar uma rede Single Frequency Network (SFN) utilizando transmissores de baixa potência, bem como um comparativo com uma rede composta por um transmissor único de alta potência. Dentre as dificuldades de se implementar as redes de redistribuição de sinais em SFN foi priorizada a questão do sincronismo e técnicas de equalização que permitam um melhor desempenho desse sistema. Para isso foi realizada uma pesquisa teórica comparativa entre os diferentes métodos de sincronismo de redes de frequência única e simulações de cobertura e desempenho, visando discutir a implementação desse tipo de rede no sistema Brasileiro de TV digital (SBTVD).

distribuição de sinais digitais

SBTVD (Sistema Brasileiro de TV Digital)

SFN (Single Frequency Network)

MFM (Multi-Frequency Network)

digital signal distribution

SFN (Single Frequency Network)

MFM (Multi-Frequency Network)

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Design And Analysis Of Microstrip Ring Antennas For Multi-frequency Operations

Behera, Subhrakanta

06 1900

In this research we attempted several modifications to microstrip ring/loop antennas to design multi-frequency antennas through systematic approaches. Such multi-frequency antennas can be useful while building compact terminals to operate at multiple wireless standards. One of the primary contributions was the use of a capacitive feed arrangement that enables simultaneous excitation of multiple concentric rings from an underlying transmission line. The combined antenna operates in the same resonant bands as the individual rings and avoids some of the bands at harmonic frequencies. A similar feeding arrangement is used to obtain dual band characteristics from just one ring, with improved bandwidth. This is made possible by widening two adjacent sides of a square ring antenna symmetrically, and attaching an open stub to the inner edge of the side opposite to the feed line. Use of fractal segments replacing the side with the stub also results in a similar performance. Use of fractal geometries has been widely associated with multi-functional antennas. It has been observed from the parametric studies that, the ratio of the resonant frequencies can range from 1.5 to 2.0. This shows some flexibility in systematically designing dual-band antennas with a desired pair of resonant frequencies. An analysis technique based on multi-port network modeling (MNM) has been proposed to accurately predict the input characteristics of these antennas. This approach can make use of the ordered nature of fractal geometries to simplify computations. Several prototype antennas have been fabricated and tested successfully to validate simulation and analytical results.

Microstrip Ring Antennas

Multi-frequency Ring Antennas

Dual-frequency Ring Antennas

Microstrip Ring Antennas - Simulation

Multi-Ring Multi-band Antennas

Microstrip Antenna

Ring Antennas

Multi-port Network Model (MNM)

Multi-frequency Antennas

Communication Engineering

Active Vibration Control of Axial Piston Machine using Higher Harmonic Least Mean Square Control of Swash Plate

Kim, Taeho, Ivantysynova, Monika

27 April 2016

Noise emission is a major drawback of the positive displacement machine. The noise source can be divided into structure borne noise source (SBNS) and fluid borne noise source (FBNS). Passive techniques such as valve plate optimization have been used for noise reduction of axial piston machines. However, passive techniques are only effective for limited operating conditions or at least need compromises in design. In this paper, active vibration control of swash plate is investigated for vibration and noise reduction over a wide range of operating conditions as an additional method to passive noise reduction techniques. A 75cc pump has been modified for implementation of active vibration control using the swash plate. One tri-axial acceleration sensor and one angle sensor are installed on the swash plate and a high speed servovalve is used for the swash plate actuation. The multi-frequency two-weight least mean square (LMS) filter synthesizes the servovalve input signal to generate a destructive interference force which minimizes the swash plate vibration. An experimental test setup has been realized using Labview field-programmable gate array (FPGA) via cRIO. Simulation and experimental studies are conducted to investigate the possibility of active vibration control.

ddc:620

rvk:ZQ 5460

Development of a Reliable Metal-Insulator-Metal Bilayer Tunnel Junction for Wideband Detectors

Ratnadurai, Rudraskandan

01 January 2012

Detectors and sensors are an integral part of modern electronics and are crucial to highly sensitive applications. Metal-Insulator-Metal (MIM) tunnel junctions have been explored for the past five decades and are still being investigated due to its wide use of applications such as mixers, capacitors, detectors, rectifiers and energy conversion devices. In this research, various designs of thin film based tunnel junctions have been investigated and the optimum one picked for the purpose of a wide band detector up to 10GHz based on their sensitivities. A modified design with an isolation layer incorporating a self-aligning method to increase fabrication throughput was developed. A mask for the reliability testing of multiple devices with different areas was also developed. Nickel Oxide based insulators with different stoichiometries have been incorporated in the fabrication of the device to identify which stoichiometry gives the best performance for high frequency applications. Nickel Oxide (NiO), Zinc Oxide (ZnO) and the combination of the two have been deposited using reactive sputtering and investigated as insulator materials. The bilayer devices showed increased sensitivities at lower turn on voltages and very good efficiencies at 100MHz and 1GHz. Although, the MIM device provides a simple structure, some of the critical parameters required to quantify the device functionality are still being explored. Based on the parameters, a criterion was developed to help engineer a tunnel device for a desired detectivity.

Metal-Insulator-Metal

Multi Frequency Detection

Quantum Tunneling

Sensing

Sputtering

Thin Film

Electrical and Computer Engineering

Engineering

Materials Science and Engineering

Tunable Frequency Microstrip Antennas By Rf-mems Technology

Erdil, Emre

01 May 2005

This thesis presents the design, fabrication, and measurement of tunable frequency microstrip antennas using RF MEMS (Microelectromechanical Systems) technology. The integration of RF MEMS components with radiators enable to implement tunable systems due to the adjustable characteristics of RF MEMS components. In the frame of this thesis, different types of structures have been investigated and designed. The first structure consists of a microstrip patch antenna which is loaded with a microstrip stub whose length is controlled by RF MEMS switches. In the other structure, the length of a microstrip patch antenna is changed by connecting a metal plate using RF MEMS switches. The third structure is composed of a microstrip patch antenna and a microstrip stub on which RF MEMS variable capacitors are placed periodically to control the resonant frequency. In order to maintain an easier integration with RF MEMS capacitors, another structure consisting of a microstrip patch antenna and a coplanar waveguide (CPW) stub which is loaded with variable RF MEMS capacitors is designed. The final structure is a dual frequency CPW-fed rectangular slot antenna whose resonant frequencies are shifted by RF MEMS variable capacitors placed on a short circuited stub inserted inwards the antenna. The fabrication of CPW-fed rectangular slot antenna is completed in the MEMS fabrication facilities of METU using RF MEMS process based on electroforming on glass substrate. The measurement results show that RF MEMS components might be a proper solution to obtain tunable frequency antenna structures.

A Multi-Channel Micromechanical Cantilever for Advanced Multi-Modal Atomic Force Microscopy

Dharmasena, Sajith Mevan

January 2019

No description available.

Mechanical Engineering

Nanotechnology

Atomic force microscopy

nanotechnology

inner-paddled cantilever

piezoresponse force microscopy

high-frequency AFM

multi-frequency AFM

Multi-frequency Ultrasound Directed Self-assembly

Presley, Christopher Tre

29 September 2023

Ultrasound directed self-assembly (DSA) relies on the acoustic radiation force associated with a standing ultrasound wave to organize particles dispersed in a fluid medium into specific patterns. State-of-the-art ultrasound DSA methods can only organize particles into (quasi-)periodic patterns, limited by the use of single-frequency ultrasound wave fields. Acoustic holography and acoustic waveguides provide alternatives to assembling complex patterns of particles, but generally provide low spatial accuracy and are not re-configurable because they require custom hardware for each specific pattern of particles, which is impractical. We introduce multi-frequency ultrasound wave fields to organize particles in non-periodic patterns. We theoretically derive and experimentally validate a solution methodology to determine the operating parameters (frequency, amplitude, phase) of any number and spatial arrangement of ultrasound transducers, required to assemble spherical particles dispersed in an inviscid fluid medium into any specific two-dimensional pattern. The results show that multi-frequency ultrasound DSA enables the assembly of complex, non-periodic patterns of particles with substantially fewer ultrasound transducers than single-frequency ultrasound DSA, and without incurring a penalty in terms of accuracy. The results of this work fundamentally transform the state-of-the-art knowledge of ultrasound DSA. Multi-frequency ultrasound wave fields enable a near-unlimited complexity of patterns of particles that can be assembled, increasing the relevance of the technology to practical implementation in engineering applications such as manufacturing of engineered composite materials that derive their properties from the spatial organization of the filler in the matrix material. Although this work focuses specifically on ultrasound wave fields, the theoretical model is valid for all wave phenomena. / Master of Science / Ultrasound directed self-assembly (DSA) is the process where particles dispersed in a fluid medium assemble into specific patterns due to their interactions with a sound wave and/or other particles. Current ultrasound DSA methods use a single-frequency ultrasound wave to assemble particles into specific patterns, which creates repeating patterns within the fluid medium. Other methods of assembling particles that allow for more complex, non-repeating patterns generally provide low spatial accuracy and do not allow dynamically changing the pattern as they require custom hardware for each specific pattern of particles, rendering these methods impractical. We use many ultrasound waves each with a different frequency to organize particles into complex, non-repeating patterns, which we call multi-frequency ultrasound DSA. We theoretically derive and experimentally validate a method that allows us to assemble any specific two-dimensional pattern of particles using multi-frequency ultrasound DSA. The results show that multi-frequency ultrasound DSA enables the assembly of complex, non-repeating patterns of particles with substantially resources than single-frequency ultrasound DSA, and without incurring a penalty in terms of accuracy. Multi-frequency ultrasound DSA enables a near-unlimited complexity of patterns of particles that can be assembled, increasing the relevance of the technology to practical implementation in engineering applications.

External field directed self-assembly

ultrasound directed self-assembly

multi-frequency wave field

engineered composite materials

manufacturing

Suivi des flux d'eau et de matières en suspension dans les cours d'eau par profileurs acoustiques Doppler horizontaux / Monitoring flow and fluxes of suspended sediment in rivers using side-looking acoustic Doppler current profilers

Moore, Stéphanie

16 December 2011

Cette thèse est une étude de l'applicabilité des profileurs acoustiques Doppler horizontaux (H-ADCP) pour le suivi des flux d'eau et de matières en suspension (MES) dans les rivières. Plus d'un an de données acquises avec des H-ADCP de 300, 600 et 1200 kHz sur quatre sites, sur le Rhône, l'Isère et la Saône, avec des géométries et des conditions de forçage contrastées sont analysées. Les résultats montrent qu'une profondeur de section limitée peut poser problème en raison de la diffusion d'une partie de l'énergie acoustique par la surface libre. De plus, quand l'intensité rétrodiffusée par les particules est trop faible, les mesures de vitesse sont sous-estimées ou plus dispersées par rapport aux mesures de référence. Des relations de vitesse indice sont toutefois établies en fonction de l'intensité et de la concentration afin de corriger les vitesses. La concentration en MES est déterminée à partir de l'atténuation acoustique qui est importante pour des suspensions concentrées de limons (> ~100 mg/L). Les constantes d'atténuation sont obtenues par calage sur des mesures de turbidité~; elles sont proches des valeurs théoriques calculées pour les distributions granulométriques des particules primaires. Les mesures acoustiques de concentration sont en bon accord avec les mesures de référence et reproduisent finement la dynamique temporelle. En outre, l'évolution de la granulométrie est étudiée à partir des mesures multi-fréquences d'atténuation sous l'hypothèse que les distributions granulométriques sont lognormales. Cette étude montre qu'une fois que les conditions limites pour des mesures fiables sont bien établies, le H-ADCP est un outil performant pour le suivi des flux d'eau et de MES dans les rivières, surtout pendant des périodes de fortes concentrations telles que des crues. / The work investigates the feasibility of using horizontal acoustic Doppler current profilers (H-ADCPs) to monitor fluxes of water and suspended sediment in rivers. Year-long data sets acquired with H-ADCPs operating at 300, 600 and 1200 kHz at four sites with varying geometries and flow forcing conditions on the Rhône, Saône and Isère rivers are analyzed. Findings show that limited depth can pose a problem due to scattering of a fraction of the acoustic energy from the air-water interface. A second problem arises when the backscattered intensity from the suspended sediment is too weak; this leads to underestimation or higher variability of the velocity estimates compared to reference values. Nevertheless, index-velocity relationships are established as a function of concentration and intensity in order to correct the velocity measurements. Concentrations of suspended sediment can be determined from the acoustic attenuation, which is substantial for silt-sized particles at concentrations > ~100 mg/L. Attenuation constants obtained by comparison with turbidity data are in good agreement with the theoretical values calculated for the measured grain size distributions of the primary particles. The acoustic measurements of concentration are in good agreement with reference methods in terms of both amplitude and temporal resolution. Grain size is determined from multi-frequency attenuation data, accounting for lognormal grain size distributions. Our findings show that once the limits of accurate velocity measurements are well established for a given site and instrument, the side-looking ADCP can be a valuable tool for monitoring concentration and changes in grain size throughout high concentration events such as floods.

Mesures acoustiques multi-fréquences

Flux de sédiments en suspension

ADCP horizontaux

Atténuation acoustique

Multi-frequency acoustics

Suspended sediment fluxes

Horizontal ADCPs

Acoustic attenuation

550

Ανάπτυξη προσομοιωτή λειτουργίας μέσου ωτός με σκοπό την υποστήριξη στη διάγνωση

Ρογκάλας, Δημήτριος

29 April 2014

Ο σκοπός της διδακτορικής διατριβής ήταν η μελέτη και η ανάπτυξη προσομοιωτή λειτουργίας του μέσου ωτός με σκοπό την υποστήριξη στη διάγνωση. Ο βασικός τρόπος διάγνωσης των παθολογιών του μέσου ωτός βασίζεται στην τυμπανομετρία. Εξέλιξη της τυμπανομετρίας είναι η τυμπανομετρία πολλαπλών συχνοτήτων, η οποία χρησιμοποιήθηκε για το σκοπό της διατριβής. Στις περισσότερες παθολογικές καταστάσεις, η διάγνωση βασίζεται εν μέρει σε αντικειμενικά κριτήρια. Το πρόβλημα έγκειται στη μετάφραση της κωδωνοειδούς καμπύλης του τυμπανογράμματος. Σε πολλές περιπτώσεις αυτό είναι αναποτελεσματικό για δύο λόγους. Πρώτον γιατί η καμπύλη ενδέχεται να συμπίπτει σε περισσότερες από μία παθολογικές καταστασεις και δεύτερον γιατί μπορεί να λειτουργούν στοιχεία του συστήματος κατά τέτοιο τρόπο ώστε να αλληλοεξουδετερώνονται τα αποτελέσματά τους. Η λειτουργία του προσομοιωτή βασίζεται στην αντιστοίχιση του βιολογικού συστήματος του μέσου ωτός (από τον τυμπανικό υμένα ως την ωοειδή και στρογγυλή θυρίδα) σε μηχανολογικό σύστημα και εν συνεχεία στην αντιστοίχιση του σε ισοδύναμο ηλεκτρικό κύκλωμα. Στο πλαίσιο της μελέτης εκφράστηκε η συνάρτηση μεταφοράς του ισοδύναμου κυκλώματος, αναπτύχθηκε η αρχιτεκτονική λειτουργίας του προσομοιωτή, διερευνήθηκαν αλγόριθμοι επεξεργασίας των μετρήσεων, λήφθηκαν κλινικές μετρήσεις φυσιολογικών και παθολογικών δειγμάτων και αξιολογήθηκαν τα αποτελέσματά τους. Εν τέλει αποδείχθηκε η ορθή λειτουργία του προσομοιωτή για φυσιολογική λειτουργία του μέσου ωτός και για την παθολογική λειτουργία του στις νόσους της ωτοσκλήρυνσης και της μέσης εκκριτικής ωτίτιδας. / The purpose of this doctoral dissertation was the study and development of a simulator of the function of middle-ear in order to support the diagnostic procedure. The basic diagnostic procedure for middle ear pathologies is based on tympanometry. The evolution of classic tympanometry is multi-frequency tympanometry, which was used for the purpose of this study. In most pathological situations, diagnosis is based partly on objective criteria. The problem lies with the translation of the bell-like curve of the tympanogram. In most cases this is not effective for two reasons. Firstly, because the curve may concur in more than one pathological situations and secondly, because elements of the system may function in such a way as to cancel each other out in their depiction. The operation of the simulator is based on the correlation of the biological system of the middle ear (tympanic membrane to round and oval windows) to the mechanical system and eventually to the equivalent electrical circuit. During thiw study, the transfer function of the system was generated, the architecture of the simulator was created, algorithms of manipulation of the measurements were investigated, clinical measurements were taken for both normal and pathological ears and their results were evaluated. Finally, the correct operation of the simulator was proven for normal operation of the middle ear and pathological operation in the cases of otosclerosis and secretory otitis media.

Μέσος ους

Τυμπανόγραμμα

617.807 5

Middle ear

Tympanogram

Multi-frequency tympanometry

Middle ear mechanics

Simulator of middle ear function

MATLAB

Accurate Positioning in Urban Canyons with Multi-frequency Satellite Navigation

Ollander, Simon

07 December 2020

No description available.

510

GNSS

Satellite Navigation

GPS

Navigation

Positioning

Multi-frequency

Multipath

Urban Canyon

NLOS

Reflection

Dual-frequency

Triple-frequency

Detection

Mitigation

Simulation

Raytracing

Accurate Positioning

Informatik (PPN619939052)