Engineering Commons^™

Analysis Of Waveguides Filled With Uniaxial Media And Metamaterials For Filter Applications Using The Mode Matching Method, Luke Murphy

Dissertations - ALL

This dissertation will explore the analysis of waveguide discontinuities for the purpose of dielectric filled waveguide filter analysis and design. The filling media studied are uniaxial media and uniaxial media embedded with metamaterial. A literary search provides numerous methods and numerical techniques for analyzing waveguide class problems, but ultimately the Mode Matching Method (MMM) is chosen as the numerical analysis technique for this dissertation.

An overview of waveguide theory and its application to the Mode Matching Method are presented. The Mode Matching Method is then used to analyze simple cases to confirm the numerical accuracy. Once accuracy is confirmed, Mode …

Retrieval Of Free Space Radiation Patterns Through Measured Data In A Non-Anechoic Environment, Weixin Zhao

Dissertations - ALL

Antenna pattern measurements are usually carried out in an anechoic chamber. However, a good anechoic chamber is very expensive to construct. Previous research has attempted to compensate for the effects of extraneous fields measured in a non-anechoic environment to obtain a free space pattern that would be measured in an anechoic chamber. Existing compensation techniques are like the Test Zone Field compensation method, the Fast-Fourier-Transform-based method, the Matrix Pencil method, and the Antenna Pattern Comparison technique.

This work illustrates and extends a deconvolution methodology which allows the antenna measurement under a non-anechoic test environment and retrieves the free space radiation …

Common Information And Decentralized Inference With Dependent Observations, Ge Xu

Electrical Engineering and Computer Science - Dissertations

Wyner's common information was originally defined for a pair of dependent discrete random variables. This thesis generalizes its definition in two directions: the number of dependent variables can be arbitrary, so are the alphabets of those random variables. New properties are determined for the generalized Wyner's common information of multiple dependent variables. More importantly, a lossy source coding interpretation of Wyner's common information is developed using the Gray-Wyner network. It is established that the common information equals to the smallest common message rate when the total rate is arbitrarily close to the rate distortion function with joint decoding if the …

Design Of A Microstrip Bandpass Filter For 3.1-10.6 Ghz Uwb Systems, Cem Cansever

Electrical Engineering and Computer Science – Theses

In this thesis, ultra-wideband (UWB) microwave filters and design challenges are studied and, a microstrip UWB filter prototype design is presented. The UWB bandpass filter operating in the 3.6 GHz to 10.6 GHz frequency band is targeted to comply with the FCC spectral mask for UWB systems. The prototype filter is composed of quarter-wavelength spaced shunt stub transmission lines. The circuit is first simulated and optimized by using AWR DE simulation software tool. Then Sonnet EM Simulation and CST EM Simulation Tools are further utilized to obtain more accurate simulated results. The fabricated microstrip UWB bandpass filter is then measured …

Optimal Solution Based Plasmonic Interfaces For Photocurrent Enhancement In Silicon-On-Insulator Devices, Miriam Israelowitz

Electrical Engineering and Computer Science – Theses

Renewable energy sources are a vital topic to the future of growing industrialized nations. Solar cells are a popular potential technology to become a major source of energy supply, with Silicon (Si) being the most common solar cell semiconductor material. To address the cost of bulk Si, thin film amorphous Silicon (a-Si) solar cell technology was developed. The drawback to using thin film a-Si solar cells is the reduction in power efficiency compared to bulk Si cells. In this work we explore the use of local plasmon resonance and nanoparticle interfaces to enhance photocurrent within thin film Si. Silver (Ag) …

Energy-Efficient Smart Home System: Optimization Of Residential Electricity Load Management System, Sangeun Sarah Cho

Renée Crown University Honors Thesis Projects - All

In this project, an algorithm for electrical load management in a hypothetical household setting is proposed, developed and simulated. There are two main goals for the algorithm; firstly, to minimize the total electricity cost when a variable pricing model is applied; secondly, to flatten the demand curve over 24 hours, which, when applied to real-life settings, will minimize investment costs for the utilities – including building more generation plants and transmission lines – as well as the total bill for customers. To simulate the algorithm, mathematical models for appliances are developed based on typical usage and operation patterns.

Identification Of A Target Using Its Natural Poles Using Both Frequency And Time Domain Response, Woojin Lee

Electrical Engineering and Computer Science - Dissertations

A new methodology for detection and identification of unknown objects in free space or on ground, or under the ground is presented in this dissertation. The Singularity Expansion Method (SEM) is introduced because it is possible to find the natural resonant frequencies of a scatterer from the scattered fields and use the resonant frequencies for identification. Many techniques to extract singularities of the EM response of an object are studied and then the Cauchy and the Matrix Pencil (MP) methods are chosen to carry out the processing. In the first part of the dissertation, a methodology for the computation of …