Open Access. Powered by Scholars. Published by Universities.®
- Institution
-
- Wright State University (157)
- TÜBİTAK (74)
- Embry-Riddle Aeronautical University (44)
- University of Nebraska - Lincoln (19)
- Washington University in St. Louis (19)
-
- Selected Works (14)
- Singapore Management University (13)
- Old Dominion University (11)
- Air Force Institute of Technology (10)
- Portland State University (7)
- Institute of Business Administration (5)
- Western Kentucky University (4)
- Chapman University (3)
- SelectedWorks (2)
- University of Nevada, Las Vegas (2)
- University of New Haven (2)
- University of South Florida (2)
- University of Texas at El Paso (2)
- California Polytechnic State University, San Luis Obispo (1)
- Louisiana Tech University (1)
- Munster Technological University (1)
- Purdue University (1)
- Syracuse University (1)
- Technological University Dublin (1)
- University of Arkansas, Fayetteville (1)
- University of Denver (1)
- University of Kentucky (1)
- University of Massachusetts Amherst (1)
- University of New Mexico (1)
- University of Pennsylvania Carey Law School (1)
- Keyword
-
- Ubiquitous Computing (8)
- Classification (4)
- Digital forensics (4)
- Optimization (4)
- Synchronization (4)
-
- Western Kentucky University (4)
- #antcenter (3)
- Active filters (3)
- Arrangement detection (3)
- Computer science (3)
- Department of Computer Science and Engineering (3)
- Electronic data processing -- Distributed processing (3)
- Functional programming (Computer science) (3)
- Localization (3)
- Networked devices (3)
- Parallel processing (Electronic computers) (3)
- Aerial Networks (2)
- Analog signal processing (2)
- Applied sciences (2)
- Authentication (2)
- Case study (2)
- Data structures (Computer science) (2)
- Digital evidence (2)
- Enterprise and Investment Development (2)
- Face recognition (2)
- Forensics (2)
- Fuzzy control (2)
- Genetic algorithm (2)
- Grid computing (2)
- Hardware Design (2)
- Publication
-
- Computer Science & Engineering Syllabi (154)
- Turkish Journal of Electrical Engineering and Computer Sciences (74)
- Journal of Digital Forensics, Security and Law (28)
- All Computer Science and Engineering Research (19)
- Annual ADFSL Conference on Digital Forensics, Security and Law (16)
-
- Department of Computer Science and Engineering: Dissertations, Theses, and Student Research (14)
- Research Collection School Of Computing and Information Systems (13)
- Theses and Dissertations (9)
- Computer Science Faculty Publications and Presentations (7)
- International Conference on Information and Communication Technologies (5)
- Zheng Sun (5)
- Computer Science Faculty Publications (4)
- Computer Science Theses & Dissertations (4)
- Aveek Purohit (3)
- Browse all Theses and Dissertations (3)
- Dr Deogratias Harorimana (3)
- Engineering Faculty Articles and Research (3)
- George K. Thiruvathukal (3)
- Arcot Desai NARASIMHALU (2)
- CSE Conference and Workshop Papers (2)
- Computational Modeling & Simulation Engineering Theses & Dissertations (2)
- Electrical & Computer Engineering and Computer Science Faculty Publications (2)
- Open Access Theses & Dissertations (2)
- USF Tampa Graduate Theses and Dissertations (2)
- AFIT Documents (1)
- All Faculty Scholarship (1)
- Branch Mathematics and Statistics Faculty and Staff Publications (1)
- CSE Technical Reports (1)
- Computational Modeling & Simulation Engineering Faculty Publications (1)
- Computer Engineering (1)
- Publication Type
- File Type
Articles 31 - 60 of 405
Full-Text Articles in Computer Engineering
Cs 475/675-01: Web Information Systems, Amit P. Sheth
Cs 475/675-01: Web Information Systems, Amit P. Sheth
Computer Science & Engineering Syllabi
No abstract provided.
Cs 705: Introduction To Data Mining, Guozhu Dong
Cs 705: Introduction To Data Mining, Guozhu Dong
Computer Science & Engineering Syllabi
Data mining is concerned with the extraction of novel and useful knowledge from large amounts of data. This course introduces and studies the fundamental concepts, issues, tasks and techniques of data mining. Topics include data preparation and feature selection, association rules, classification, clustering,
evaluation and validation, scalability, mining of spatial/text/sequence/graph/time-series etc data, privacy, data mining applications, and other topics of interest. 3 hours lecture, 2 hours lab.
Cs 499/699: Cloud Computing, Keke Chen
Cs 499/699: Cloud Computing, Keke Chen
Computer Science & Engineering Syllabi
This is an introductory course to cloud computing. In this course, we will explore a few aspects of cloud computing: distributed data crunching with MapReduce, cloud and datacenter filesystems, virtualization, cloud security&privacy, Amazon Web Services, and interactive web-based applications. Students are expected to finish several mini projects, read some papers, and take the final exam. Participation in the class discussion is strongly encouraged. Guest speakers might be invited for some particular topics. (3Hours Lecture + 1 Hour lab).
Cs 780: Compiler Design And Construction I, Krishnaprasad Thirunarayan
Cs 780: Compiler Design And Construction I, Krishnaprasad Thirunarayan
Computer Science & Engineering Syllabi
This course deals with the theory and practice of compiler design. Topics emphasized are scanning and parsing. If time permits, semantic analysis will also be covered.
Cs 740: Algorithms, Complexity And The Theory Of Computability, Michael L. Raymer
Cs 740: Algorithms, Complexity And The Theory Of Computability, Michael L. Raymer
Computer Science & Engineering Syllabi
No abstract provided.
Cs 784: Programming Languages, Prabhaker Mateti
Cs 784: Programming Languages, Prabhaker Mateti
Computer Science & Engineering Syllabi
Programming paradigms and concepts for high level programming languages. Techniques for formal specification. 4.000 Credit hours. Prerequisites: CS 480/680
Cs/Mth 410/610-01: Theoretical Foundations Of Computing, Sarah Gothard
Cs/Mth 410/610-01: Theoretical Foundations Of Computing, Sarah Gothard
Computer Science & Engineering Syllabi
Turing machines; partial-recursive functions; equivalence of computing paradigms; Church-Turing thesis; undecidability; intractability. Four hours lecture.
Cs/Bio 471/671: Algorithms For Bioinformatics, Michael L. Raymer
Cs/Bio 471/671: Algorithms For Bioinformatics, Michael L. Raymer
Computer Science & Engineering Syllabi
Theory-oriented approach to the application of contemporary algorithms to bioinformatics. Graph theory, complexity theory, dynamic programming and optimization techniques are introduced in the context of application toward solving specific computational problems in molecular genetics. 4 credit hours.
Cs/Mth 316/516: Survey Of Numerical Methods For Computational Science, Michael Linger
Cs/Mth 316/516: Survey Of Numerical Methods For Computational Science, Michael Linger
Computer Science & Engineering Syllabi
Introduction to numerical methods used in the sciences and engineering. Included will be methods for interpolation, data smoothing, integration, differentiation, and solution of systems of linear and nonlinear equations. Discussion of sources of error in numerical methods. Applications to science, engineering and applied mathematics are an integral part of the course. Special topics presented as schedule permits. Four hours lecture.
Cs 205-08: Introduction To Computers And Office Productivity Software, Terri Bauer
Cs 205-08: Introduction To Computers And Office Productivity Software, Terri Bauer
Computer Science & Engineering Syllabi
Focus on learning MS Office software applications including intermediate word processing, spreadsheets, database and presentation graphics using a case study approach where critical thinking and problem solving skills are required. Computer concepts are integrated throughout the course to provide an understanding of the basics of computing, the latest technological advances and how they are used in industry. Ethics and issues encountered in business are discussed to challenge students on societal impact of technology.
Ceg 260-01: Digital Computer Hardware And Switching Circuits, John C. Gallagher
Ceg 260-01: Digital Computer Hardware And Switching Circuits, John C. Gallagher
Computer Science & Engineering Syllabi
This course covers the design and analysis of basic digital circuits for computation. Topics will Include number systems, basic Boolean algebra, combinational circuit design and analysis, basic Medium Scale Integration (MSI) components, basic memory devices, basic sequential circuits, and binary arithmetic. At the end of this course you should be able to design, optimize, and Implement combinational logic for a variety of applications. You should also be familiar with basic MSI components and sequential circuit concepts In preparation for more advanced study of computer architecture, sequential circuit analysis, design, and optimization.
Ceg 498-01: Team Projects I And Ii, John C. Gallagher
Ceg 498-01: Team Projects I And Ii, John C. Gallagher
Computer Science & Engineering Syllabi
CEG 498 (Team Projects I and II) 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 journals and on the quality of their collective efforts as reflected in group generated products.
Ceg 460/660-01: Introduction To Software Computer Engineering, Thomas C. Hartrum
Ceg 460/660-01: Introduction To Software Computer Engineering, Thomas C. Hartrum
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 examp le 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 420/620-01: Computer Architecture, Jack Jean
Ceg 420/620-01: Computer Architecture, Jack Jean
Computer Science & Engineering Syllabi
No abstract provided.
Ceg 361/561-01: Introduction To Software Testing, John A. Reisner
Ceg 361/561-01: Introduction To Software Testing, John A. Reisner
Computer Science & Engineering Syllabi
This course covers software testing strategies, along with established best practices, so students team how to test their software in a complete and systematic (vice ad-hoc) manner. Particular attention is paid to planning, writing, and executing software tests, along with associated documentation, (i.e., a software test plan), which includes documented results. Various projects are assigned, designed to illustrate various challenges associated with software testing, and to reinforce the strategies and techniques used to overcome these challenges.
Ceg 233: Linux And Windows, Prabhaker Mateti
Ceg 233: Linux And Windows, Prabhaker Mateti
Computer Science & Engineering Syllabi
Introduction to Linux and Windows systems. GUI and Windowing Systems. Files and Directories. Ownership and Sharing. Programs and Processes. System calls, Libraries. Loading. Dynamic linking. Command Line Shells. Scripting languages. Regular expressions. Clients and Servers. Web browser clients and servers. Secure shell, sftp. SSL/TSL. HTTPS. System Administration. 4 credit hours. 3 hours lectures, 2 hours labs.
Cs 480/680: Comparative Languages, Krishnaprasad Thirunarayan
Cs 480/680: Comparative Languages, Krishnaprasad Thirunarayan
Computer Science & Engineering Syllabi
This course will introduce fundamental concepts and paradigms underlying the design of modern programming languages. For concreteness, we study the details of an object-oriented language (e.g. Java), and a functional language (e.g., Scheme). The overall goal is to enable comparison and evaluation of existing languages. The programming assignments will be coded in Java and in Scheme.
Cs 208: Computer Programming For Business I, David M. Hutchison
Cs 208: Computer Programming For Business I, David M. Hutchison
Computer Science & Engineering Syllabi
CS 208 Is the first In a sequence of two programming classes required for MIS majors. This course will Introduce students to the basic concepts of programming. Examples are from business applications and display graphics and emphasis Is on problem solving with the computer as a tool.
Cs 141: Computer Programming I, Vanessa Starkey
Cs 141: Computer Programming I, Vanessa Starkey
Computer Science & Engineering Syllabi
Introduction to use of computers as a problem-solving tool. Examples from and applications to a broad range of problems. Methodology for algorithm design and for structured modular implementation is stressed. Three hours lecture, two hours lab.
Ceg 210-01: Pc Networking I, Chris P. Fickert
Ceg 210-01: Pc Networking I, Chris P. Fickert
Computer Science & Engineering Syllabi
Introduction to networking technologies including infrastructure and architectures, standards, protocols and directory services, administration, security and management. Integrated lecture and lab.
Ceg 220-01: Introduction To C Programming For Engineers, Jay Dejongh
Ceg 220-01: Introduction To C Programming For Engineers, Jay Dejongh
Computer Science & Engineering Syllabi
This course provides a general introduction to computers as a problem-solving tool using the C programming language. Emphasis is on algorithms and techniques useful to engineers. Topics include data representation, debugging, and program verification. 4 credit hours. Prerequisite: MTR 229 (Calculus I) or EGR 101 (Engineering Mathematics). The course includes a scheduled laboratory section for which you must register.
Ceg 320/520-01: Computer Organization, Sarah Gothard
Ceg 320/520-01: Computer Organization, Sarah Gothard
Computer Science & Engineering Syllabi
Organizational and sequential operation of a digital computer. Program control, memory organization and hierarchy, stacks and parameter passing, interrupts and traps, I/O devices, program structure, machine code and assembly language. Three hours lecture, two hours lab.
Ceg 402/602-01: Introduction To Computer Communication, Bin Wang
Ceg 402/602-01: Introduction To Computer Communication, Bin Wang
Computer Science & Engineering Syllabi
This course provides an introduction to basic concepts of communication networks, different types of networks, protocols over different layers, and network applications through lectures, labs, homework, and reading on relevant materials. You will
•Understand networking principles, protocols, and technologies.
•Understand some design and performance issues involved in providing a network service.
•Acquire background for supporting e-commerce, e-government, and e-education.
•Gain hands-on experience with programming techniques for network protocols.
•Obtain background for original research in computer networks.
Ceg 433/633-01: Operating Systems, Thomas Wischgoll
Ceg 433/633-01: Operating Systems, Thomas Wischgoll
Computer Science & Engineering Syllabi
By the end of this quarter, you should be able to apply the learned concepts to the following:
• Develop, test and debug programs in Unix.
• Improve the performance of programs by tuning virtual memory usage, and file io.
• Design and construct device drivers for Unix.
• Design and build newer file systems for any OS.
During the course we will discuss topics from the following areas:
• Operating system structures
• Operating system Interfaces
• Process management and scheduling
• Interprocess communication
• File systems
• Memory management
Ceg 436-01: Mobile Computing, Prabhaker Mateti
Ceg 436-01: Mobile Computing, Prabhaker Mateti
Computer Science & Engineering Syllabi
Study networking protocol and system design in mobile computing. Focus on concepts, architecture, design, and performance evaluation of mobile computing principles, protocol; and applications, including: wireless TCP, Mobile IP, ad hoc routing, agent techniques, etc.
Ceg 453/653-01: Embedded Systems, Jack Jean
Ceg 453/653-01: Embedded Systems, Jack Jean
Computer Science & Engineering Syllabi
No abstract provided.
Ceg 724-01: Computer Vision I, Arthur A. Goshtasby
Ceg 724-01: Computer Vision I, Arthur A. Goshtasby
Computer Science & Engineering Syllabi
This course covers basic algorithms for low-level and mid-level vision. The algorithm; deal with edge detection and image segmentation, feature detection and matching, and image alignment. Also covered in the course are structure from motion, dense motion estimation, and stereo depth percepti011
Ceg 702-01: Advanced Communication Networks, Bin Wang
Ceg 702-01: Advanced Communication Networks, Bin Wang
Computer Science & Engineering Syllabi
This is a graduate level course on advanced computer communication and networking technologies. The course involves both a reading/lecture/discussion component and a project component. We will read papers on various aspects of advanced computer networking: LAN/WAN technologies, congestion/flow control, self-similar traffic analysis, queuing theory, link scheduling, routing, internetworking, multicast, wireless technologies, quality of services, and peer-to-peer networks. Various technical and research issues involved will be studied in depth.
Ceg 476/676-01: Computer Graphics I, Thomas Wischgoll
Ceg 476/676-01: Computer Graphics I, Thomas Wischgoll
Computer Science & Engineering Syllabi
By the end of this quarter, you will have learnt techniques for constructing 2-D and 3-D objects as well as manipulating and rendering the objects using OpenGL.
Ceg 760-01: Advanced Software Computer Engineering, Thomas C. Hartrum
Ceg 760-01: 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 forma] methods of software specification or evaluation using software metrics. Students will participate in team projects to apply the methods discussed.