Computer Science (COMP SCI)
Courses
COMP SCI 201. Introduction to Computing & Internet Technologies. 4 Credits.
Introduction to the history of computing, overview of computers, how they work, and relevant applications, especially to web site creation. Introduction to procedural programming and an emphasis on ASP.NET using Microsoft Web Development tools part of the Microsoft Visual Studio.NET programming environment, the basics of HTML, CSS, and JavaScript.
Fall and Spring.
COMP SCI 221. Database Design & Management. 3 Credits.
This introductory course focuses on how databases and database systems work and how they are used in various data-driven applications. The course covers relational databases, SQL, different ways of designing databases, and management of databases. The course provides hands-on experience with exercises using SQL Server and Microsoft Access and includes group discussions. The course also introduces some advanced topics, including database security, data privacy, data analytics, and big data. Working knowledge of Microsoft Office suite and Windows is required for this course.
Fall Only.
COMP SCI 231. Introduction to IT Operations. 3 Credits.
This course covers the basic knowledge and skills needed to plan, design, control and monitor Information Technology services and infrastructure. Topics include the fundamentals of asset management, service provisioning, and functional operations. this course serves as an introduction to careers in the IT field.
Fall Only.
COMP SCI 232. Introduction to Mobile Platforms and Apps. 3 Credits.
An introduction and survey to the world of mobile computing. Each student will design, develop and produce their own app. Topics covered will include areas such as models of mobile information, GPS services, social networking, casual gaming, networked games, business apps, and information gathering -- all from the perspective of mobile platforms.
Fall Only.
COMP SCI 240. Discrete Mathematics. 4 Credits.
Study of topics in mathematics that do not depend upon the limit process, including: number systems, set theory, logic, counting techniques, matrix manipulation, recursion, mathematical induction, graph theory, recurrence relations, and finite state machines. Techniques, computations, and data representations to facilitate problem-solving by hand and by computer.
Fall and Spring.
COMP SCI 256. Introduction to Software Design. 4 Credits.
Students will learn a language common to software design and be introduced to software design techniques. This includes the problem statement, solution design, program testing, implementation, debugging, and final documentation.
P: Comp Sci 201 with at least a C grade and Math 104 or Math Placement of Math 202 or greater.
Fall and Spring.
COMP SCI 299. Travel Course. 1-4 Credits.
Travel courses are conducted to various parts of the world and are led by one or more faculty members. May be repeated to different locations.
P: cons of instr & prior trip arr & financial deposit.
COMP SCI 316. Advanced Software Design. 4 Credits.
A continuation of COMP SCI 256, this course deals with larger projects, more complex problems, and group work. It introduces linear data structures and their implementations. It also develops the object oriented design paradigm to include inheritance and polymorphism.
P: Comp Sci 256 with at least a C grade.
Fall and Spring.
COMP SCI 331. Internet Programming. 3 Credits.
The purpose of the course is to familiarize students with current Internet technologies to create dynamic database-driven web sites. The emphasis is on server-side programming and on practical Web development techniques and skills.
P: Comp Sci 201 and 316 with at least a C grade.
Spring.
COMP SCI 351. Data Structures. 4 Credits.
Concepts involved in storage, retrieval and processing data. Emphasis is on the design of software with complex data retrieval needs and on non-linear structures such as generalized lists, trees, and graphs.
P: Comp Sci 240 with a C grade or better or concurrent enrollment AND Comp Sci 316 with a C grade or better.
Spring.
COMP SCI 352. Computer Graphics and Animation. 3 Credits.
Basic techniques of computer graphics, such as point and line plotting, clipping and windowing using the OpenGL platform. Use of graphics hardware; construction of graphics packages. Basic animation techniques.
P: Comp Sci 240 and 371 with at least a C grade.
Spring Odd.
COMP SCI 353. Computer Architecture and Organization. 3 Credits.
Data representation, assembly language, procedure call protocols, memory, cache, and bus organizations, comparison of processor architectures, I/O systems, logic circuits, Boolean algebra.
P: Comp Sci 240 and 316 with a C grade or better.
Fall Only.
COMP SCI 358. Data Communication and Computer Networks. 3 Credits.
Transmission media, analog and digital signals, modulation, compression, error detection methods, security and encryption protocols, Ethernet standards, TCP/IP protocols, routing algorithms, Internet and steraming applications.
P: Comp Sci 316 with at least a C grade.
Spring Odd.
COMP SCI 360. Systems Analysis and Project Management. 3 Credits.
This course explores both traditional and new emerging approaches to systems development, analysis, design, and project management, and also discusses professional and ethical responsibilities.
P: Comp Sci 221 and 331 with at least a C grade.
Fall Only.
COMP SCI 371. Advanced Object-Oriented Design. 4 Credits.
Advanced object oriented design techniques in C++ and C#, including: collection classes, class design and class relationships, inheritance, and polymorphism. Additional coverage of C/C++ topics such as pointers and pointer arithmetic, C strings, dynamic memory management, memory leaks, exception handling and operator overloading. Coverage of C# specific constructs such as properties, events, delegates and the use of the .NET framework.
P: Comp Sci 316 with at least a C grade.
Fall and Spring.
COMP SCI 372. Software Engineering. 3 Credits.
Design and programming techniques for large and complex data-driven projects, using C++. Design based on Design Patterns. Use of Software Engineering metrics and formal methodologies. Fundamentals of component-based software development and software deployment techniques.
P: Comp Sci 221 and 316 with at least a C grade.
Spring.
COMP SCI 450. Theory of Algorithms. 3 Credits.
Design, analysis and comparison of algorithms; divide and conquer techniques, greedy method, dynamic programming and smart searching. Applications to optimization with constraints and decision problems. Theory of computability including examples of NP-complete problems such as the "traveling salesman" problem.
P: Comp Sci 240 and 316 and Math 202, all with at least a C grade.
Fall Odd.
COMP SCI 451. Advanced Database. 3 Credits.
Relational and client/server database technology, scaling to large data sets, stored procedures and triggers, security, integrity rules, database normalization, entity-relationship modeling, concurrency issues, non-SQL databases and Object-oriented databases.
P: Comp Sci 221, 240, and 316
Fall Odd.
COMP SCI 452. Operating Systems Using Linux. 3 Credits.
Methods and philosophies behind management of computing resources, including: memory management, process management, scheduling, process signaling, process synchronization, mutual exclusion; interprocess communication, introduction to the Linux Operating System and environment, shell scripting, C programming, process management, and message passing.
P: Comp Sci 240 and 316 with at least a C grade.
COMP SCI 464. Artificial Intelligence. 3 Credits.
Study of the fundamental types of artificial intelligence, their principal applications, and implementation of simulations on a conventional computer. These include inference systems, expert systems, artificial neural networks, swarm intelligence, genetic programming, evolutionary computing and reinformcement learning.
P: Comp Sci 240 and 316 and Math 202, all with at least a C grade.
Fall Even.
COMP SCI 478. Honors in the Major. 3 Credits.
P: min 3.50 all cses req for major and min gpa 3.75 all UL cses req for major. (F,S)
P: min 3.50 all cses req for major and min gpa 3.75 all UL cses req for major.
Fall and Spring.
COMP SCI 490. Capstone Essay in Computer Science. 1-3 Credits.
A project course in which a student does reading in computer science journals and produces a major research paper.
P: 18 earned upper level cr in Comp Sci.
Fall and Spring.
COMP SCI 497. Internship. 1-12 Credits.
Supervised practical experience in an organization or activity appropriate to a student's career and educational interests. Internships are supervised by faculty members and require periodic student/faculty meetings.
P: jr st.
Fall and Spring.
COMP SCI 498. Independent Study. 1-4 Credits.
Independent study is offered on an individual basis at the student's request and consists of a program of learning activities planned in consultation with a faculty member. A student wishing to study or conduct research in an area not represented in available scheduled courses should develop a preliminary proposal and seek the sponsorship of a faculty member. The student's advisor can direct him or her to instructors with appropriate interests. A written report or equivalent is required for evaluation, and a short title describing the program must be sent early inthe semester to the registrar for entry on the student's transcript.
P: fr or so st with cum gpa > or = 2.50; or jr or sr st with cum gpa > or = 2.00.
Fall and Spring.
COMP SCI 499. Travel Course. 1-6 Credits.
Travel courses are conducted to various parts of the world and are led by one or more faculty members. May be repeated to different locations.
P: cons of instr & prior trip arr & financial deposit.