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Articles 1 - 30 of 106
Full-Text Articles in Physical Sciences and Mathematics
Nichtmonotone, Neuro-Symbolische Und Begriffliche Wissensverarbeitung, Pascal Hitzler
Nichtmonotone, Neuro-Symbolische Und Begriffliche Wissensverarbeitung, Pascal Hitzler
Computer Science and Engineering Faculty Publications
Diese Schrift dient dem Bericht uber die Hauptaspekte meiner Forschertatigkeit an der TU Dresden seit der Promotion. In diesen dreieinhalb Jahren war es mein Bestreben, selbststandig aktuelle, theoretisch fundierte und anwendungsbezogene Fragestellungen zu entwickeln und zu verfolgen.
Naturgemaß war meine Forschung in dieser Zeit vor allem zu Anfang sehr explorativ. Meine Suche konzentrierte sich dabei auf das Herausarbeiten theoretischer Zusammenhange. Ob ich einen Ansatz dann weiterverfolgte entschied sich anschließend aufgrund einer Evaluation aus angewandter Sicht.
Die in dieser Schrift dargestellten Forschungsansatze gedenke ich in Zukunft fortzufuhren. Sie bilden die Keimzellen fur langfristig angelegte angewandte und theoretische Untersuchungen. Ich werde in …
As-Doped P-Type Zno Produced By An Evaporation/Sputtering Process, David C. Look, G. M. Renlund, R. H. Burgener, J. R. Sizelove
As-Doped P-Type Zno Produced By An Evaporation/Sputtering Process, David C. Look, G. M. Renlund, R. H. Burgener, J. R. Sizelove
Physics Faculty Publications
Strongly p-type ZnO is produced by the following sequence of steps: (1) evaporation of Zn3As2 on a fused-quartz substrate at 350 °C; and (2) sputtering of ZnO with substrate held at 450 °C. The electrical characteristics include: resistivity of 0.4 Ω cm, a mobility of 4 cm2∕V s, and a hole concentration of about 4×1018 cm−3. This resistivity is among the best (lowest) ever reported for p-type ZnO. Secondary-ion mass spectroscopic analysis gives an average As concentration about 5×1019 cm−3, and a simple one-band fit of the …
Micro-Auger Electron Spectroscopy Studies Of Chemical And Electronic Effects At Gan-Sapphire Interfaces, X. L. Sun, S. T. Bradley, G. H. Jessen, David C. Look, Richard J. Molnar, L. J. Brillson
Micro-Auger Electron Spectroscopy Studies Of Chemical And Electronic Effects At Gan-Sapphire Interfaces, X. L. Sun, S. T. Bradley, G. H. Jessen, David C. Look, Richard J. Molnar, L. J. Brillson
Physics Faculty Publications
We have used cross-sectional micro-Auger electron spectroscopy (AES), coupled with micro-cathodoluminescence (CLS) spectroscopy, in a UHV scanning electron microscope to probe the chemical and related electronic features of hydride vapor phase epitaxy GaN/sapphire interfaces on a nanometer scale. AES images reveal dramatic evidence for micron-scale diffusion of O from Al2O3 into GaN. Conversely, plateau concentrations of N can extend microns into the sapphire, corresponding spatially to a 3.8 eV defect emission and Auger chemical shifts attributed to Al-N-O complexes. Interface Al Auger signals extending into GaN indicates AlGaN alloy formation, consistent with a blue-shifted CLS local interface …
Wright State University College Of Engineering And Computer Science Bits And Pcs Newsletter, Volume 21, Number 3, November 2004, College Of Engineering And Computer Science, Wright State University
Wright State University College Of Engineering And Computer Science Bits And Pcs Newsletter, Volume 21, Number 3, November 2004, College Of Engineering And Computer Science, Wright State University
BITs and PCs Newsletter
An eight page newsletter created by the Wright State University College of Engineering and Computer Science that addresses the current affairs of the college.
Student Fact Book, Fall 2004, Twenty-Eighth Annual Edition, Wright State University, Office Of Student Information Systems, Wright State University
Student Fact Book, Fall 2004, Twenty-Eighth Annual Edition, Wright State University, Office Of Student Information Systems, Wright State University
Wright State University Student Fact Books
The student fact book has general demographic information on all students enrolled at Wright State University for Fall Quarter, 2004.
Ceg 760: Advanced Software Computer Engineering, Thomas C. Hartrum
Ceg 760: Advanced Software Computer Engineering, Thomas C. Hartrum
Computer Science & Engineering Syllabi
This course covers advanced topics in software engineering. Aspects of problem specification, design, verification, and evaluation are discussed. We will focus on design methods, including software patterns and software architecture, plus some advanced topics involving formal methods of software specification or evaluation using software metrics. Students will participate in team projects to apply the methods discussed.
Ceg 210: Pc Networking I, Chris P. Fickert
Ceg 210: Pc Networking I, Chris P. Fickert
Computer Science & Engineering Syllabi
The objective of the course is to provide an introduction to PC networking hardware, concepts, and technologies with a focus on hardware configuration and LAN administration using in-class, hands-on exercises with Novell NetWare.
Ceg 453/653: Design Of Computing Systems, Jack Jean
Ceg 453/653: Design Of Computing Systems, Jack Jean
Computer Science & Engineering Syllabi
No abstract provided.
Ceg 449/699: Mobile Computing, Yong Pei
Ceg 449/699: Mobile Computing, Yong Pei
Computer Science & Engineering Syllabi
This senior/graduate course provides an in-depth study of networking protocol and system design in the area of wireless networking and mobile computing. It will help students in the networking area establish a solid foundation in wireless networking protocols, fundamental concepts and principles. It will also introduce students to a few hot topics in wireless networking and mobile computing research.
The course will start with a review over fundamental design challenges, architectural principles and philosophy for the Internet and heterogeneous networks. The focus will then move on to an in-depth examination of wireless networking protocols, and system design techniques for mobile …
Ceg 460/660: Introduction To Software Computer Engineering, Robert J. Weber
Ceg 460/660: Introduction To Software Computer Engineering, Robert J. Weber
Computer Science & Engineering Syllabi
This course is concerned with the techniques of designing and constructing large programs. Some of the required basic concepts necessarily have to be developed using small programs as examples. To this extent, we also study programming-in-the-small. The overall objectives are to present an overview of issues in the development of software, to discuss terminology, to illustrate via example case studies, and to give sufficiently detailed advice on how to develop quality software. Hands-on experience is emphasized through the use of homework and a class project.
Ceg 770: Computer Engineering Mathematics, Yong Pei
Ceg 770: Computer Engineering Mathematics, Yong Pei
Computer Science & Engineering Syllabi
Computer Engineering and Science students need proficiency in relevant applied mathematics to be able to discover and model difficult real-world computer engineering and science problems. The relationship of these problems to mathematical theory will be discussed. This course provides an introduction to linear and nonlinear programming, queueing theory, mathematics of signal processing, difference equations, and related differential and matrix equations. In addition to mathematical theory, appropriate applications will be presented.
Ceg 320/520: Computer Organization And Assembly Language Programming, Jennifer White Doom
Ceg 320/520: Computer Organization And Assembly Language Programming, Jennifer White Doom
Computer Science & Engineering Syllabi
Terminology and understanding of functional organizations and sequential operation of a digital computer. Program structure, and machine and assembly language topics including addressing, stacks, argument passing, arithmetic operations, traps, and input/output. Macros, modularization, linkers, and debuggers are used.
Ceg 720: Computer Architecture I, Soon M. Chung
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. 3 hours lecture and 2 hours lab.
Ceg 433/633: Operating Systems, Prabhaker Mateti
Ceg 433/633: Operating Systems, Prabhaker Mateti
Computer Science & Engineering Syllabi
The management of resources in multi-user computer systems. Emphasis is on problems of file-system design, process scheduling, memory allocation, protection, and tools needed for solutions. Course projects use the C/C++ language and include the design of portions of an operating system.
Ceg/Ee 260: Digital Computer Hardware Switching Circuits, Jack Jean
Ceg/Ee 260: Digital Computer Hardware Switching Circuits, Jack Jean
Computer Science & Engineering Syllabi
No abstract provided.
Ceg 702: Advanced Computer Communications, Daniel C. Lee
Ceg 702: Advanced Computer Communications, Daniel C. Lee
Computer Science & Engineering Syllabi
The general objective of this graduate-level course on advanced computer communication and networking technologies is to develop students' abilities to (1) conduct research in the area of computer networks and (2) innovate network technologies. This objective will be achieved through a reading/lecture/discussion component and a project component. In particular, we will read papers on various aspects of advanced computer networking, e.g., routing, admission control, congestion/flow control, queuing theory, link scheduling, internetworking, wireless technologies, quality of service, and peer-to-peer networks. We will also learn how to apply (mathematical) optimization to networking.
Ceg 360/560 Ee 415/651: Digital System Design, Travis E. Doom
Ceg 360/560 Ee 415/651: 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.
Cs 205: Computer Literacy And Office Automation, Terri Bauer
Cs 205: Computer Literacy And Office Automation, Terri Bauer
Computer Science & Engineering Syllabi
To understand basic computer operations and the principal components of a computer and connected peripheral devices
To understand and examine current operating systems, software utilities, device drivers and
application software
To define and understand current storage technology and learn about logical file storage and
management
To become proficient in using:
-Windows XP
-Spreadsheet Applications
-Database Applications
-Presentation Graphics Applications
-To understand the basics of email
Cs 205: Computer Literacy And Office Automation, Kim Gros
Cs 205: Computer Literacy And Office Automation, Kim Gros
Computer Science & Engineering Syllabi
To understand basic computer operations and the principal components of a computer and connected peripheral devices
To understand and examine current operating systems, software utilities, device drivers and application software
To define and understand current storage technology and learn about logical file storage and management
To become proficient in using application software categories that are covered in the seven modules
To understand the basics of e-mail
To introduce networking concepts including the Internet and its components and web browser basics
To learn ways to protect your data and avoid computer disasters
Cs 207: Advanced Office Productivity Ii, Louis A. Benavides
Cs 207: Advanced Office Productivity Ii, Louis A. Benavides
Computer Science & Engineering Syllabi
This course covers post-advanced microcomputer applications including Microsoft
Office Word 2003, Microsoft Office Excel 2003, Microsoft Office Access 2003, and Microsoft
Office PowerPoint 2003. Topics include: creating an online form; working with macros and
Visual Basic for Applications (VBA); working with a master document, an index and a table of contents; linking an Excel worksheet and charting its data in Word; formula auditing, data validation, and complex problem solving in Excel; importing data into Excel; working with PivotCharts, PivotTables, and trendlines in Excel; creating a PivotTable List; advanced Access report and form techniques, and creating multi-page forms; administering a database …
Cs 141: Computer Programming I, Robert Rea
Cs 141: Computer Programming I, Robert Rea
Computer Science & Engineering Syllabi
CS 141 is dedicated to teaching the fundamentals of computer programming The concepts covered in this class will be applied using the Java programming language.
Cs 208: Computer Programming For Business I, Dennis Kellermeier
Cs 208: Computer Programming For Business I, Dennis Kellermeier
Computer Science & Engineering Syllabi
CS 208 is the first of a two quarter sequence in programming for business students. It is required for Management Information Science majors. The courses are designed to help students achieve a high degree of facility in intermediate levelprogramming. This course assumes students have never written a program before.
Cs 241: Computer Science Ii, L. Jane Lin
Cs 241: Computer Science Ii, L. Jane Lin
Computer Science & Engineering Syllabi
This course is the second in the three course sequence "Introduction to Computer Science" offered by the Computer Science department, WSU. It focuses on tools for building abstract data types (using structure and class concepts in C++) and Object-Oriented Programming. We also begin the study of data structures in this course.
Cs 240: Introduction To Computer Science I, Dale E. Nelson
Cs 240: Introduction To Computer Science I, Dale E. Nelson
Computer Science & Engineering Syllabi
No abstract provided.
Cs 241: Introduction To Computer Science Ii, Praveen Kakumanu
Cs 241: Introduction To Computer Science Ii, Praveen Kakumanu
Computer Science & Engineering Syllabi
This course is the second in the three course sequence "Introduction to Computer Science" offered by the Computer Science department, WSU. It focuses on tools for building abstract data types (using structure and class concepts in C++) and Object-Oriented Programming. We also begin the study of data structures in this course.
Cs 340: Programming Language Workshop In Java, Ronald F. Taylor
Cs 340: Programming Language Workshop In Java, Ronald F. Taylor
Computer Science & Engineering Syllabi
This course is designed as a self-study in Java. You are expected to work independently to learn the Java language and solve a set of programming problems assigned to you using latest Java SDK available at http://fuva.stm.com. There are no exams. We officially meet only once in a quarter. However, I will be available in the posted office hours for clarifications and general discussion of the programming assignments. Do not expect support in debugging badly documented code.
Cs 242: Introduction To Computer Science Iii, Praveen Kakumanu
Cs 242: Introduction To Computer Science Iii, Praveen Kakumanu
Computer Science & Engineering Syllabi
This is the final course in the three course sequence "Introduction to Computer Science" offered by the Computer Science department, WSU. It focuses on building a number of abstract data types such as stacks, queues, trees and tables. We continue to study the C++ object-oriented concepts such as Inheritance, polymorphism and template handling. We also start learning to analyze the complexity of algorithms in this course.
Cs 316/516: Numerical Methods For Digital Computers I, Ronald F. Taylor
Cs 316/516: Numerical Methods For Digital Computers I, Ronald F. Taylor
Computer Science & Engineering Syllabi
Introduction to numerical methods used in the sciences. Methods of interpolation, data smoothing, functional approximation, numerical differentiation and integration. Solution techniques for linear and nonlinear equations. Discussion of sources of error in numerical methods. Applications of interest to engineering, science, and applied mathematics students are an integral part of the course. Special topics presented as schedule permits.
Cs 400/600: Data Structures And Software Design, Michael L. Raymer
Cs 400/600: Data Structures And Software Design, Michael L. Raymer
Computer Science & Engineering Syllabi
No abstract provided.
Cs 409/609: Principles Of Artificial Intelligence, Michael T. Cox
Cs 409/609: Principles Of Artificial Intelligence, Michael T. Cox
Computer Science & Engineering Syllabi
"Principles of Artificial Intelligence" is a graduate/undergraduate level introductory course in Artificial Intelligence (AI), designed for students interested in or specializing in AL We will cover several basic topics ranging from knowledge representation, inference, problem solving, search, the predicate calculus and other fundamentals of AI, to selected topics concerning intelligent agents, natural language processing, planning, learning, and case-based reasoning. The intent of the course is to provide a background in artificial intelligence, an exposure to the major issues and methods in the field, and experience in writing AI programs. The course will also examine real AI systems and allow the …