|
Click on the name of an online computer science undergraduate course to view the detailed information; you can also find out about the college or university offering the category by clicking on "School's Profile". |
|
|
|
|
|
|
|
Name (Section Id) |
|
Program |
|
Degree |
|
Name of College, University |
|
School's Profile |
|
|
|
|
Computers in Mechanical Engineering Technology (0610-432) |
|
Computer Science |
|
U |
|
Roosevelt University |
|
▤ |
|
|
|
Details |
|
|
|
This course introduces several software applications and the use of the Microsoft Windows (Windows 95) operating system. Basic use of the PC computer is taught: file management, setting up file systems, formatting floppy disks, virus protection. Students learn the fundamental operations of Windows such as file copying, drag-and-drop operations, using the "clipboard," saving files. Students are given a thorough grounding in the use of Microsoft Office; Word for word processing, Excel for spreadsheets, and PowerPoint for presentations. Special features of the applications are covered such as equation writing preparing charts and graphs, drawing figures, use of clip-art, and object linking and embedding (OLE). All instruction and testing are done in the PC laboratory with one student per computer. |
|
|
|
|
Concepts in Information Security with Lab (TCM-474) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
This course is a survey of the information security field, providing students with an overall picture of related issues and solutions involved. The concept of a security architecture is focused on, with coursework addressing all areas of information security; however, students can concentrate on particular areas of interest such as e-commerce, software security, physical security and communications (network) security. |
|
|
|
|
Concepts of Java (CS 260) |
|
Computer Science |
|
U |
|
American Sentinel University |
|
▤ |
|
|
|
Details |
|
|
|
This course is an introduction to the Java programming language. This course assumes previous experience with C++ equivalent to CS110 and CS111 courses, and covers applets and applications, threads, JFC, event processing, graphics, exception handling. |
|
|
|
|
Connectivity with Lab (CIS-231) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
This course covers fundamentals of data communication and computer networking, including the Open Systems Interconnection (OSI) model. Network architecture and configurations such as local area networks (LANs) and wide area networks (WANs) are addressed. |
|
|
|
|
Critical Thinking and Computer Logic (CSS 330) |
|
Computer Science |
|
U |
|
University of Phoenix |
|
▤ |
|
|
|
Details |
|
|
|
This course provides students opportunities for analysis, synthesis, prescription, and application of critical thinking and decision making within the organization. Basic Boolean logic concepts are also covered. |
|
|
|
|
CSCW and GroupWare (4002-892) |
|
Computer Science |
|
U |
|
Roosevelt University |
|
▤ |
|
|
|
Details |
|
|
|
This course will examine the role of information technology in collaborative work settings. An overview of relevant theory, technologies, and standards will provide the context for examining the integration and strategic use of email distributed networking, the WWW, conferencing and enhanced messaging. Credit 4. |
|
|
|
|
Current Procedural Terminology Coding with Lab (HIT-210) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
Students in this course expand their knowledge of clinical classification systems through presentation of principles of Current Procedural Terminology (CPT) applied to code outpatient procedures. During lab exercises, students assign procedure codes, and apply guidelines for assigning Evaluation and Management (E/M) codes and modifiers to case examples. In addition, the Health Care Common Procedure Coding System (HCPCS) is reviewed, and application of coding principles to electronic record systems is explored. |
|
|
|
|
Current Topics in Telecommunications (TCM-471) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
This course focuses on current and emerging topics in the telecommunications field. Students explore advances in technology and their implications in designing, implementing, securing and managing networks. |
|
|
|
|
Data and Fiber Optic Telecommunications (ECT-215) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
This course addresses data communications concepts, network devices and topologies. Basics of the public switched telephone network (PSTN) and digital switching are included. Fiber optic systems are covered, with a focus on system-level testing and troubleshooting. |
|
|
|
|
Data and Fiber Optic Telecommunications Lab (ECT-215L) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
Activities in this lab support exercises in implementing and troubleshooting the PSTN, as well as data communication and fiber optic systems. |
|
|
|
|
Data Applications and Health Care Quality with Lab (HIT-225) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
Building on knowledge gained in previous courses, students explore using information technologies in the context of quality assessment. Principles of clinical quality, utilization review and risk management are introduced, as are regulatory and accreditation implications of quality assessment activities, and organizational approaches. Students examine methods and techniques for data search and access; analysis for variations and deficiencies; and production of effective informational displays and reports to support a quality improvement program. Case studies and lab projects reinforce learning. |
|
|
|
|
Data Comm & Comp Networks (4002-341) |
|
Computer Science |
|
U |
|
Roosevelt University |
|
▤ |
|
|
|
Details |
|
|
|
An introduction to data communications hardware and software, and use of these components in computer networks. Topics include communication system components, communications software, packet switching, network control, common carrier issues, long-haul vs. Local area networks, and performance considerations. Summer session 6/2-7/7/03. All other quarters full 11 week sessions. |
|
|
|
|
Data Communications and Networking (CS 440) |
|
Computer Science |
|
U |
|
American Sentinel University |
|
▤ |
|
|
|
Details |
|
|
|
This course addresses the principles of networks and telecommunications. It begins with an overview of the history of networks, and then discusses the design and operation of networks in a layer-by-layer approach: physical transmission, error detection and correction, local area networks, addressing, routing, flow control, compression. |
|
|
|
|
Data Management System Design (CIS 631) |
|
Computer Science |
|
U |
|
New Jersey Institute of Technology |
|
▤ |
|
|
|
Details |
|
|
|
Acquaintance with fundamental notions of relational database technology. Mathematical properties and usage of database programming languages. Methods of database design and conceptual modeling. Methods of physical storage for database information. Fundamental notions of concurrency control and recovery in database systems. |
|
|
|
|
Data Object Development (4002-720) |
|
Computer Science |
|
U |
|
Roosevelt University |
|
▤ |
|
|
|
Details |
|
|
|
Introduction to analysis and design of data representations and data object implementation. Current software environments are used to explore effective data design implementation concepts. Topics include basic database design, database transactions, data object design, database quality and error handling. Software design and programming projects required. |
|
|
|
|
Data Structures (CS 121) |
|
Computer Science |
|
U |
|
American Sentinel University |
|
▤ |
|
|
|
Details |
|
|
|
The concepts behind data structures such as stacks, queues and trees, and their associated operations, as well as standard algorithms for sorting and searching, are taught in this class. The student completing this course gains experience using stacks, queues, and trees and encapsulating them into abstract data types, along with an analysis of algorithms. |
|
|
|
|
DATA STRUCTURES (CS220-OL) |
|
Computer Science |
|
U |
|
Westwood College Online |
|
▤ |
|
|
|
Details |
|
|
|
This course covers data structures. Topics include nodes, linked links, stacks, queues, and trees. Upon completion of this course students should be able to write, compile and debug programs containing data structures. |
|
|
|
|
Data Structures (CS270) |
|
Computer Science |
|
U |
|
Grantham University |
|
▤ |
|
|
|
Details |
|
|
|
An introductory study that is both exciting and challenging. ?Exciting? because there is a wide range of programming techniques presented that make it possible to solve larger and more complex problems. ?Challenging? because the richness of data structures brings with it many concepts that change the way we approach the design of programs. The material is presented in a straightforward manner with many examples and figures. Structured programming techniques are emphasized to develop good programming habits. Topics include sequential and binary search methods, linear lists, linked list data structures,
recursion, trees, heaps, queues, and graphs. |
|
|
|
|
Data Structures and Algorithms with Lab (CET-375) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
Students learn to implement and use classical data structures and algorithms using programming languages such as C++ and Java. Abstract data types, including lists, strings, stacks, queues and trees, and use of a data encapsulation mechanism for implementing seamless types, are included. Storage as well as use of recursion, sorting and searching algorithms are also examined. In the lab, students work individually and in groups on C++ or Java programming assignments. |
|
|
|
|
Database Administration with Lab (CIS-438) |
|
Computer Science |
|
U |
|
DeVry University Online |
|
▤ |
|
|
|
Details |
|
|
|
Students are introduced to a variety of database administration topics including capacity planning, database management system (DBMS) architecture, performance tuning, backup, recovery and disaster planning, archiving, reorganization and defragmentation. |
|
|
|
|
|
|
