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Ceg 404/604-01: Wireless Sensor Networks, Bin Wang 2010 Wright State University - Main Campus

Ceg 404/604-01: Wireless Sensor Networks, Bin Wang

Computer Science & Engineering Syllabi

No abstract provided.


Ceg 360/560-01: Digital System Design, Travis E. Doom 2010 Wright State University - Main Campus

Ceg 360/560-01: Digital System Design, Travis E. Doom

Computer Science & Engineering Syllabi

Design of digital systems. Topics include flip-flops, registers, counters, programmable logic devices, memory devices, register-level design, and microcomputer system organization. Students must show competency in the design of digital systems. 3 hours lecture, 2 hours lab. Prerequisite: CEG 260.


Ceg 435/635-01: Distributed Computing And Systems, Keke Chen 2010 Wright State University - Main Campus

Ceg 435/635-01: Distributed Computing And Systems, Keke Chen

Computer Science & Engineering Syllabi

Study of process coordination, client-server computing, network and distributed operating systems, network and distributed file systems, concurrency control, recovery of distributed transactions, and fault-tolerant computing.


Ceg 436/636-01: Mobile Computing, Yong Pei 2010 Wright State University - Main Campus

Ceg 436/636-01: Mobile Computing, Yong Pei

Computer Science & Engineering Syllabi

No abstract provided.


Ceg 460/660-01: Introduction To Software Computer Engineering, Prabhaker Mateti 2010 Wright State University - Main Campus

Ceg 460/660-01: Introduction To Software Computer Engineering, Prabhaker Mateti

Computer Science & Engineering Syllabi

[4 Credit Hours] Concepts of software engineering. Analysis, design, and implementation of software engineering concepts that comprise structured programming and design. Case studies serve as examples illustrating the software life-cycle model. Three hours lecture, two hours lab. 4.0 Credit hours. Prerequisites: Undergraduate level CS 400 Minimum Grade of D


Ceg477/677: Computer Graphics Ii, Thomas Wischgoll 2010 Wright State University - Main Campus

Ceg477/677: Computer Graphics Ii, Thomas Wischgoll

Computer Science & Engineering Syllabi

By the end of this quarter, you will be familiar with techniques for generation 3-D scenes and interacting with the generated scenes. You will be introduced to surface rendering techniques, visibility algorithms, illumination models, and geometric modelling.


Ceg 720: Computer Architecture I, Soon M. Chung 2010 Wright State University - Main Campus

Ceg 720: Computer Architecture I, Soon M. Chung

Computer Science & Engineering Syllabi

Review of sequential computer architecture and study of parallel computers. Topics include memory hierarchy, reduced instruction set computer, pipeline processing, multiprocessing, various parallel computers, interconnection networks, and fault-tolerant computing.


Ceg 498: Design Experience, Thomas C. Hartrum 2010 Wright State University - Main Campus

Ceg 498: Design Experience, Thomas C. Hartrum

Computer Science & Engineering Syllabi

CEG 498 (Design Experience) is a summative computer engineering design project course that builds upon previous engineering, science, mathematics and communications course work. CEG 498 projects are a minimum of two quarters in length and must be completed in groups of at least three students. Projects are selected under the guidance of the course instructor and are tailored to both student interest and formal classroom preparation. Students are evaluated both on their individual contributions as recorded in a graded engineering journal and on the quality of their collective efforts as reflected in group generated products.


Ceg 725: Computer Vision Ii, Arthur A. Goshtasby 2010 Wright State University - Main Campus

Ceg 725: Computer Vision Ii, Arthur A. Goshtasby

Computer Science & Engineering Syllabi

In this course we will learn computer algorithms that interpret images. Some of the algorithms will be practiced through computer implementation.


Ceg 750: Microprocessor, Jack Jean 2010 Wright State University - Main Campus

Ceg 750: Microprocessor, Jack Jean

Computer Science & Engineering Syllabi

Design and implement an MC6812 computer system based on an Axiom CSM-12C32 board that allows the loading of a 6812 application program from a PC so as to reconfigure the system as both an analog waveform storage scope and a digital logic analyzer.


Ceg 830: Distributed Computing Systems, Prabhaker Mateti 2010 Wright State University - Main Campus

Ceg 830: Distributed Computing Systems, Prabhaker Mateti

Computer Science & Engineering Syllabi

Example languages and packages: SR and PYM, file servers, semantics of file sharing, caches and replication, log-structured file systems, remote evaluation, process migration, mobile projects, check pointing and rollback-recovery.


Ceg 860: Object-Oriented Programming, Krishnaprasad Thirunarayan 2010 Wright State University - Main Campus

Ceg 860: Object-Oriented Programming, Krishnaprasad Thirunarayan

Computer Science & Engineering Syllabi

This course motivates the need for object-oriented programming, and studies, in detail, object-oriented programming techniques, languages, and technology. The lectures will focus on the foundations of OOP, while the student presentations will focus on the applications and extensions of Object Technology.


Ceg/Ee 260 Digital Computing Hardware/Switching Circuits, Meilin Liu 2010 Wright State University - Main Campus

Ceg/Ee 260 Digital Computing Hardware/Switching Circuits, Meilin Liu

Computer Science & Engineering Syllabi

We will discuss and cover basic digital, combinational and sequential logic systems. Labs will be used to gain valuable practical experience in implementing elementary circuits and logic designs.


Cs 416/616: Matrix Computations, Ronald F. Taylor 2010 Wright State University - Main Campus

Cs 416/616: Matrix Computations, Ronald F. Taylor

Computer Science & Engineering Syllabi

This course is a survey of numerical methods in linear algebra for application to problems in engineering and the sciences. Emphasis is on using modern software tools on high performance computing systems. This course covers the mathematics of linear equations, eigenvalue problems, singular value decomposition, and least squares. Material covered will be relevant to applications areas such as structural analysis, heat transfer, neural networks, mechanical vibrations, and image processing in biomedical engineering. A familiarity with MATLAB is useful, and the ability to program in languages such as CIC++ or Fortran is very important. A basic knowledge of matrix algebra is ...


Ceg 320/520: Computer Organization, Nikolaos Bourbakis 2010 Wright State University - Main Campus

Ceg 320/520: Computer Organization, Nikolaos Bourbakis

Computer Science & Engineering Syllabi

No abstract provided.


Theory Of Breakup Of Core Fluids Surrounded By A Wetting Annulus In Sinusoidally Constricted Capillary Channels, Igor A. Beresnev, Wen Deng 2010 Missouri University of Science and Technology

Theory Of Breakup Of Core Fluids Surrounded By A Wetting Annulus In Sinusoidally Constricted Capillary Channels, Igor A. Beresnev, Wen Deng

Civil, Architectural and Environmental Engineering Faculty Research & Creative Works

Analysis of core-annular dynamics in the presence of base flow for arbitrary fluid viscosities leads to an equation describing the temporal evolution of the fluid/fluid interface. The equation follows from the conservation of mass in the "small-slope" approximation. Its useful applications occur, for example, in chemical engineering and petroleum recovery. The nonlinear equation allows inexpensive numerical analysis. For sinusoidally constricted pores, a purely geometric criterion exists that enables or prohibits the core-fluid breakup in the necks of the constrictions. The geometrically favoring condition sets up capillary-pressure gradients that ensure a continuous outflow of the core fluid from the necks ...


On The Interaction Of An Eddy Current Coil With A Right-Angled Conductive Wedge, John R. Bowler, Theodoros Theodoulidis 2010 Iowa State University

On The Interaction Of An Eddy Current Coil With A Right-Angled Conductive Wedge, John R. Bowler, Theodoros Theodoulidis

John R. Bowler

A fundamental problem in eddy-current nondestructive evaluation is one of finding the quasi-static electromagnetic field of a cylindrical coil in the vicinity of the edge of a metal block. Although the field can be calculated numerically, an effective analytical approach can potentially provide a better understanding of the edge fields and form the basis of a procedure for solving a whole class of related edge problems including edge structures that contain corner cracks. One can represent the metal block as a conductive quarter space in an unbounded region. However, it has been found that the analysis is more straightforward if ...


Iso Net Surplus Collection And Allocation In Wholesale Power Markets Under Lmp, Hongyan Li, Leigh Tesfatsion 2010 ABB Inc.

Iso Net Surplus Collection And Allocation In Wholesale Power Markets Under Lmp, Hongyan Li, Leigh Tesfatsion

Economics Working Papers (2002–2016)

This study uses five-bus and 30-bus test cases to explore ISO net surplus (congestion rent) collections and allocations in wholesale power markets with grid congestion managed by locational marginal prices (LMPs). Price-sensitivity of demand and generator learning capabilities are taken as experimental treatment factors. A key finding is that conditions resulting in greater generator capacity withholding, hence higher and more volatile LMPs, also result in greater ISO net surplus collections that can be substantial in size. A key conclusion is that ISO net surplus collections should be used pro-actively to mitigate the conditions encouraging generator capacity withholding and hence high ...


Computational Models Of Thermal Cycling In Chemical Systems, Carl Barratt, Dante Lepore, Matthew Cherubini, Pauline Schwartz 2010 University of New Haven

Computational Models Of Thermal Cycling In Chemical Systems, Carl Barratt, Dante Lepore, Matthew Cherubini, Pauline Schwartz

Mechanical and Industrial Engineering Faculty Publications

Computational models of chemical systems provide clues to counterintuitive interactions and insights for new applications. We have been investigating models of chemical reaction systems under forced, thermal cycling conditions and have found that some hypothetical processes generate higher yields under thermal cycling than under single, fixed temperature conditions. A simple kinetic model of an actual process, the two-temperature polymerase chain reaction that replicates DNA, is used to simulate the important features of a chemical system operating under thermal cycling. This model provides insights into the design of other chemical systems that may have important applications in chemistry, biochemistry and chemical ...


Cloning And Heterologous Expression Of The Spectinabilin Biosynthetic Gene Cluster From Streptomyces Spectabilis, Zengyi Shao 2010 Iowa State University

Cloning And Heterologous Expression Of The Spectinabilin Biosynthetic Gene Cluster From Streptomyces Spectabilis, Zengyi Shao

Zengyi Shao

Spectinabilin is a rare nitrophenyl-substituted polyketide metabolite. Here we report the cloning and heterologous expression of the spectinabilin gene cluster from Streptomyces spectabilis. Unexpectedly, this gene cluster is evolutionarily closer to the aureothin gene cluster than to the spectinabilin gene cluster from Streptomyces orinoci. Moreover, the two nearly identical spectinabilin gene clusters use a distinctly different regulation mechanism.


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