Digital Commons Network^™

Matlab/Simulink Implementation And Analysis Of Three Pulse-Width-Modulation (Pwm) Techniques, Phuong Hue Tran

Boise State University Theses and Dissertations

With advances in solid-state power electronic devices and microprocessors, various pulse-width-modulation (PWM) techniques have been developed for industrial applications. For example, PWM-based three-phase voltage source inverters (VSI) convert DC power to AC power with variable voltage magnitude and variable frequency.

This thesis discusses the advantages and drawbacks of three different PWM techniques: the sinusoidalPWM(SPWM) technique, the third-harmonic-injection PWM(THIPWM) technique, and the space-vector PWM (SVPWM) technique. These three methods are compared by discussing their ease of implementation and by analyzing the output harmonic spectra of various output voltages (poles voltages, line-to-neutral voltages, and line-to-line voltages) and their total harmonic distortion (THD). …

An Inertial Measurement System For Hand And Finger Tracking, Edward Nelson Henderson

Boise State University Theses and Dissertations

The primary Human Computer Interfaces (HCI) today are the keyboard and mouse. These interfaces do not facilitate a fluid flow of thought and intent from the operator to the computer. A computer mouse provides only 2 Degrees of Freedom (2DOF). Touch interfaces also provide 2DOF, but with multiple points, making the touch interface far more expressive. The hand has 6 Degrees of Freedom (6DOF)by itself. Combined with the motion of the fingers, the hand has the potential to represent a vast array of differing gestures. Hand gestures must be captured before they can be used as a HCI. Fortunately, advances …

Towards Improved Paper-Based Election Technology, Elisa H. Barney Smith, Daniel Lopresti, George Nagy, Ziyan Wu

Electrical and Computer Engineering Faculty Publications and Presentations

Resources are presented for fostering paper-based election technology. They comprise a diverse collection of real and simulated ballot and survey images, and software tools for ballot synthesis, registration, segmentation, and ground-truthing. The grids underlying the designated location of voter marks are extracted from 13,315 degraded ballot images. The actual skew angles of sample ballots, recorded as part of complete ballot descriptions compiled with the interactive ground-truthing tool, are compared with their automatically extracted parameters. The average error is 0.1 degrees. These results provide a baseline for the application of digital image analysis to the scrutiny of electoral ballots.

Hydrodynamic Modeling Of Surface Plasmon Enhanced Photon Induced Current In A Gold Grating, Alex English, Cheng-Wen Cheng, Lloyd Lowe Ii, Min-Hsiung Shih, Wan Kuang

Electrical and Computer Engineering Faculty Publications and Presentations

The current induced by incident photons on an gold grating slab is investigated numerically and experimentally. A semi-classical electrodynamic model is developed under the weak nonlinearity approximation. Electrons in the conduction band are treated as an electron gas in the presence of a self-consistent electromagnetic field. The model is solved by the finite element method and compared with measurements. The calculated current density as a function of incident angle and wavelength is found to be in qualitative agreement with the experimental measurements. The results show that increasing surface plasmon spatial variation enhances photon induced current.

Monitoring Civil Infrastructure Using Image Template Matching, Vikram Mukesh Patel

Boise State University Theses and Dissertations

Structural health monitoring (SHM) is an active area of research devoted to systems that can autonomously and proactively assess the structural integrity of civil structures. This thesis explores the possibility of monitoring civil structures using image template matching and low-cost embedded data acquisition. By acquiring several consecutive images of a structure, one can determine if movement in the structure has occurred. This information can be analyzed to determine long-term changes within a structure, which can then be used to proactively prioritize maintenance, reduce maintenance costs, and prevent structural failure. This will allow structures to be maintained based on objective data …

Design Guide For Cmos Process On-Chip 3d Inductor Using Thru-Wafer Vias, Gary Vanackern

Boise State University Theses and Dissertations

Three-dimensional (3D) inductors using high aspect ratio (10:1) thru-wafer via (TWV) technology in a complementary metal oxide semiconductor (CMOS) process have been designed, fabricated, and measured. The inductors were designed using 500 μm tall vias with the number of turns ranging from 1 to 20 in both a wide and narrow trace width to space ratios. Radio frequency characterization was studied with emphasis upon de-embedding techniques and resulting effects. The open, short, thru de-embedding (OSTD) technique was used to measure all devices. The highest quality factor (Q) measured was 11.25 at 798MHz for a 1-turn device with a self-resonant frequency …

Electrical Switching Studies Of Chalcogenide-Based Ion-Conducting Variable Resistance Devices, Beth Rose Cook

Boise State University Theses and Dissertations

In this work, ion-conducting devices using layers of chalcogenide materials are explored as potential non-volatile memory devices. This technology is also known in the literature as conductively bridged RAM (CBRAM), programmable metallization cell (PMC), and programmable conductor RAM (PCRAM; not to be confused with the acronym PCRAM as used to denote phase-change memory).

Electrical measurements with five different programming currents at four temperatures have been performed on two-terminal devices comprised of silver with a metal-selenide and germanium-chalcogenide layer. The metal-selenide layer is Sb₂Se₃, SnSe, PbSe, In₂Se₃, or Ag₂Se. The germanium-chalcogenide …

Rf Sputter Optimization Of Germanium Sulfide (Ges2) Thin Films, Steven Livers

College of Engineering Poster Presentations

Radio frequency sputter deposition of germanium sulfide thin films can be optimized for surface thickness homogeneity and surface roughness. Optimizing these two components are the first steps of producing memory devices that use the film as a solid electrolyte. The best films were produced using a sputter power of 16 Watts and a pressure of 0.2 mbar. Using these settings a deposition rate of 3.7 nm/min was recorded and the films had a minimum RMS surface roughness of 0.4550 nm.

Camera Imaging System, Wayne Kreimeyer, Adrian Rothenbühler, Anita Poudel, Elisa Barney Smith

College of Engineering Poster Presentations

• Magnetic shape memory alloys are functional materials which can remember their shape
• Currently, twin boundaries as a function of magnetic field angle can not be measured
• Information about shape changes of different parts of the sample will increase the understanding of deformation mechanisms

A Faceted Magnetron Concept Using Field Emission Cathodes, Jim Browning, Jack Watrous

Electrical and Computer Engineering Faculty Publications and Presentations

A magnetron concept using field emission cathodes has been modeled with the Air Force Research Laboratory particle-in-cell code ICEPIC and the 2D particle trajectory simulation Lorentz2E. In this approach, field emitters are used to provide a distributed cathode in place of a traditional thermionic cathode. The emitters are placed below the interaction space in a shielded structure. The cathode is comprised of facet plates with slits to protect the emitters. Simulation of an L-band rising sun magnetron shows that the faceted magnetron will oscillate using both five and ten facet cathodes. The startup times are very similar to that of …

Characterizing Challenged Minnesota Ballots, George Nagy, Daniel Lopresti, Elisa H. Barney Smith, Ziyan Wu

Electrical and Computer Engineering Faculty Publications and Presentations

Photocopies of the ballots challenged in the 2008 Minnesota elections, which constitute a public record, were scanned on a high-speed scanner and made available on a public radio website. The PDF files were downloaded, converted to TIF images, and posted on the PERFECT website. Based on a review of relevant image-processing aspects of paper-based election machinery and on additional statistics and observations on the posted sample data, robust tools were developed for determining the underlying grid of the targets on these ballots regardless of skew, clipping, and other degradations caused by high-speed copying and digitization. The accuracy and robustness of …

Electron Hop Funnel Measurements And Comparison With The Lorentz-2e Simulation, Charles Lester, Jim Browning, Lael Matthews

Electrical and Computer Engineering Faculty Publications and Presentations

Electron hop funnels have been fabricated using a Low Temperature Co-Fired Ceramic (LTCC). Measurements of the hop funnel I-V curve and electron energy distribution have been made using gated field emitters as the electron source. The charged particle simulation Lorentz 2E has been used to model the hop funnel charging and to predict the I-V and energy characteristics. The results of this comparison indicate that the simulation can be used to design hop funnel structures for use in various applications.

Optimal And Approximate Methods For Detection Of Uncoded Data With Carrier Phase Noise, Rajet Krishnan, Hani Mehrpouyan, Thomas Eriksson, Tommy Svensson

Hani Mehrpouyan

Previous results in the literature have shown that derivation of the optimum maximum-likelihood (ML) receiver for symbol-by-symbol (SBS) detection of an uncoded data sequence in the presence of random phase noise is an intractable problem, since it involves the computation of the conditional probability distribution function (PDF) of the phase noise process. In this paper, we seek to minimize symbol error probability (SEP), which is achieved by SBS detection of the sequence based on all received signals. We show that the ML detector for this problem can be formulated as a weighted sum of central moments of the conditional PDF …

Elimination Theory For Nonlinear Parameter Estimation, John Chiasson, Ahmed Oteafy

Electrical and Computer Engineering Faculty Publications and Presentations

The work presented here exploits elimination theory (solving systems of polynomial equations in several variables) [1][2] to perform nonlinear parameter identification. In particular show how this technique can be used to estimate the rotor time constant and the stator resistance values of an induction machine. Although the example here is restricted to an induction machine, parameter estimation is applicable to many practical engineering problems. In [3], L. Ljung has outlined many of the challenges of nonlinear system identification as well as its particular importance for biological systems. In these types of problems, the model developed for analysis is typically a …

Development Of Dna Based Active Macro-Materials For Biology And Medicine: A Review, Frank Xue Jiang, Bernard Yurke, Devendra Verma, Michelle Previtera, Rene Schloss, Noshir A. Langrana

Electrical and Computer Engineering Faculty Publications and Presentations

DNA was first discovered as the carrier of genetic information for the majority of the known living organisms, encoding the secret of life. Its delicate design based upon double helical structure and base pairing offers a stable and reliable media for storing hereditary codes, laying the foundation for the central dogma (Watson et al. 2003). The impact of this molecule is far reaching into scientific community and our society, as manifested in many fields, for instance, forensics (Budowle et al. 2003), besides medicine. To date, a great deal of research effort has been directed towards understanding

Edge Noise Removal In Bilevel Graphical Document Images Using Sparse Representation, Thai V. Hoang, Elisa Barney Smith, Salvatore Tabbone

Electrical and Computer Engineering Faculty Publications and Presentations

A new parametric method for edge noise removal in graphical document images is presented using geometrical regularities of the graphics contours that exists in the images. Denoising is understood as a recovery problem and is done by employing a sparse representation framework with a basis pursuit denoising algorithm for denoising and curvelet frames for encoding directional information of the graphics contours. The optimal precision parameter used in this framework is shown to have linear relationship with the level of the noise. Experimental results show the superiority of the proposed method over existing ones in terms of image recovery and contour …