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Analysis of coupling, guiding and radiation mechanisms on several microwave structuresYau, Desmond. Unknown Date (has links)
No description available.
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AM-FM transforms with applications /Pattichis, Marios Stephanou, January 1998 (has links)
Thesis (Ph. D.)--University of Texas at Austin, 1998. / Vita. Includes bibliographical references (leaves 241-248). Available also in a digital version from Dissertation Abstracts.
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Microwave usage patterns among college students at Virginia Polytechnic Institute and State UniversityCarpenter, Shelley A. 12 April 2010 (has links)
To determine microwave usage patterns, a telephone survey was administered to 300 college students living off campus. The objectives of the study were to determine: a) incidence of ownership, b) characteristics of students who have a microwave oven and those that do not, c) patterns of use of microwave ovens, and d) characteristics of the present microwave oven and one desired in the future.
Rogers’ Adoption Process was used as the model to determine that each owner had adopted the appliance into their lifestyle. The adoption stage was divided into three use levels: primary appliance used for cooking, appliance used as a supplement to the ranges and appliance used infrequently.
It was found that 192 (64%) of the 300 participants had a microwave oven in there household and 237 (79%) would make a purchase of an appliance in the future. The microwave ovens that are currently owned have an average of 4.2 features including a minute timer, variable power, automatic defrost, and touch controls. Students who would purchase a microwave in the future desired an average of 7.2 features, minute timer, variable power, automatic defrost, touch controls, clock, and delay start.
The tasks that are currently being performed in the microwave were divided into low, medium, and high complexity. Students using their microwaves more than their range prepare the most medium and low complexity foods, while owners who use their microwave as a supplement to their range prepare the greatest number of high complexity foods. Participants in all levels of adoption were satisfied with foods prepared in the microwave most of the time.
Information from this study would be relevant to microwave manufacturers, residential property development corporations, and designers of food products and container. / Master of Science
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Some engineering considerations for over-the-horizon communication systemsEl Hammali, Zakaria Ahmed, El Hammali, Zakaria Ahmed January 1981 (has links)
No description available.
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Optical parametric processes in biophotonics and microwave photonics applicationsCheung, Ka-yi., 張嘉兒. January 2010 (has links)
published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy
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Analysis of coupling, guiding and radiation mechanisms on several microwave structuresYau, Desmond. Unknown Date (has links)
No description available.
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Correlation of rain dropsize distribution with rain rate derived from disdrometers and rain gauge networks in Southern Africa.Alonge, Akintunde Ayodeji. January 2011 (has links)
Natural phenomena such as rainfall are responsible for communication service disruption, leading
to severe outages and bandwidth inefficiency in both terrestrial and satellite systems, especially
above 10 GHz. Rainfall attenuation is a source of concern to radio engineers in link budgeting and
is primarily related to the rainfall mechanism of absorption and scattering of millimetric signal
energy. Therefore, the study of rainfall microstructure can serve as a veritable means of optimizing
network parameters for the design and deployment of millimetric and microwave links. Rainfall
rate and rainfall drop-size are two microstructural parameters essential for the appropriate
estimation of local rainfall attenuation. There are several existing analytical and empirical models
for the prediction of rainfall attenuation and their performances largely depend on regional and
climatic characteristics of interest. In this study, the thrust is to establish the most appropriate
models in South African areas for rainfall rate and rainfall drop-size.
Statistical analysis is derived from disdrometer measurements sampled at one-minute interval over
a period of two years in Durban, a subtropical site in South Africa. The measurements are further
categorized according to temporal rainfall regimes: drizzle, widespread, shower and thunderstorm.
The analysis is modified to develop statistical and empirical models for rainfall rate using gamma,
lognormal, Moupfouma and other ITU-R compliant models for the control site.
Additionally, rain drop-size distribution (DSD) parameters are developed from the modified
gamma, lognormal, negative exponential and Weibull models. The spherical droplet assumption is
used to estimate the scattering parameters for frequencies between 2 GHz and 1000 GHz using the
disdrometer diameter ranges. The resulting proposed DSD models are used, alongside the scattering
parameters, for the prediction and estimation of rainfall attenuation.
Finally, the study employs correlation and regression techniques to extend the results to other
locations in South Africa. The cumulative density function analysis of rainfall parameters is applied
for the selected locations to obtain their equivalent models for rainfall rate and rainfall DSD
required for the estimation of rainfall attenuation. / Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2011.
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Propagation prediction for PCS design in urban microwave channels /Tran, Thuy Thomas, January 1993 (has links)
Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1993. / Vita. Abstract. Includes bibliographical references (leaves 138-145). Also available via the Internet.
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A simple model for the depolarizing effects of rain and ice on earth satellite links in the 10 to 30 GHz frequency rangeRunyon, Donald Lawson 12 June 2009 (has links)
This thesis reports the results of a thorough study into the effects of rain and ice on the polarization reuse technique for earth-space communications. Precipitation in the form of rain and ice leads to significant depolarization and attenuation of dual polarized signals above about 10 GHz. The depolarization versus attenuation relationship is examined in depth using a rigorous multiple scattering model. This relationship for rain is expressed in the form of a simple function similar to that used by the CCIR. Prediction accuracy using this simple model is quantified by comparisons to measured data and other model values. The impact of depolarization effects on the carrier-to-noise ratio for digital PSK systems is also addressed. Preliminary results for ice layer effects are presented. / Master of Science
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Integrated antennas on organic packages and cavity filters for millimeter-wave and microwave communications systemsAmadjikpe, Arnaud Lucres 18 January 2012 (has links)
Driven by the ever growing consumer wireless electronics market and the need for higher speed communications, the 60-GHz technology gifted with an unlicensed 9 GHz frequency band in the millimeter-wave spectrum has emerged as the next-generation Wi-Fi for short-range wireless communications. High-performance, cost-effective, and small form-factor 60-GHz antenna systems for portable devices are key enablers of this technology. This work presents various antenna architectures built on low-cost organic packages. Planar end-fire switched beam antenna modules that can easily conform to various surfaces inside a wireless device platform are developed. The planar antenna package is realized on thin flexible LCP dielectrics. One design is based on a planar Yagi-Uda antenna element and the second on a tapered slot antenna element. A low-loss microstrip-to-slot via transition is designed to provide wide impedance matching for end-fire antenna paradigms. The novel transition utilizes the slow-wave concept to provide unbalanced to balanced mode conversion as well as impedance matching. It is demonstrated that the planar antenna packages may be even integrated with active circuits that are cavity recessed inside the thin dielectric. A compact switched-beam antenna module is demonstrated. The first-ever integrated mm-wave active antenna module on organic package capable of generating both broadside and end-fire radiation is also developed in this work. Both broadside and end-fire radiators are co-designed and integrated into a single multilayer package to achieve optimal directivity, efficiency and frequency bandwidth and yet maintain excellent isolation between the two radiators. Post-wall cavities, image theory and dielectric slab modes concepts are invoked to optimize these functions. Active circuitry are integrated into the same package to add control functions such as beam switching, and also amplify the packaged-antenna gain when operated either as a transmitter or a receiver. A significant challenge in the design of antenna systems for wireless platforms is the assessment of embedded antenna performance, that is, the proximity effects of the platform chassis on the embedded antenna. Various antennas are mounted at different locations inside a laptop computer chassis: modeling and experimental studies are carried out to characterize this problem that is apparent to an antenna behind a radome.
Air traffic control radars usually require cavity filters that can handle high power and low in-band insertion loss while providing enough out-band rejection to prevent interference with neighboring channels. Such radars that operate in the S-band consist of filter banks frequency micro electromechanical systems (RF-MEMS) switches. Evanescent-mode mode cavity resonators are loaded with RF-MEMS tuning capacitance networks to control the resonant frequency of a second-order bandpass filter. The second part is the design of a novel cavity filter architecture for enhanced selectivity near the passband. It is a second-order folded cavity resonator bandpass filter with magnetic source-load cross coupling. This filter can have at least two finite transmission zeros near the passband.
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