CPSC - Computer Science
This course provides a thorough study of the principles of operation for a computer system. It covers the principal subsystems of a computer, including the central processing unit (CPU), memory, input/output, and the communications bus. Number systems and various schemes for the digital representation of numbers are also discussed. Additional critical subjects covered include the principles of hierarchical computer organization, machine instruction sets, addressing modes, CISC vs RISC, input/output processing, and interrupt handling, as well as the application of many of these concepts to modern personal computers. The student will also gain insight into the boot process by installing multiple operating systems on a single PC.
3
This course introduces the fundamental concepts and approaches for problem solving and analysis using a standard, object-oriented programming language. Students will learn the skills of algorithm development, efficiency analysis, program implementation, testing, and debugging. Topics include data types, conditional statements, logical structures, loops, functional decomposition, recursion, methods, classes, arrays, files, exceptions, basic algorithms for searching and sorting, linked lists, and stacks.
3
An introduction to discrete structures, this course covers such topics as sets, functions, relations, basic logic, proof techniques, the basics of counting and probability, algorithms, graphs and trees.
3
This course is the study of the design and analysis of computer algorithms including the data structures used in these algorithms. Topics include design techniques, such as divide-and-conquer, dynamic programming, the greedy method and backtracking, sorting, searching, graph computations, pattern matching and NP-complete problems.
3
Prerequisites
CPSC 50100
This study of computer architecture covers the central processor unit, memory unit and I/0 unit, number systems, character codes and I/O programming. Programming assignments provide practice working with assembly language techniques, including looping, addressing modes, arrays, subroutines, and macros. Microsoft assembler is discussed and used for programming throughout the course.
3
Prerequisites
CPSC 50000
This course covers essential concepts of communications and networking using TCP/IP, and OSI reference models. Each layer of these models, and associated protocols, will be discussed in details. Special emphasis will be placed on Ethernet technology of the data link layer, IPv4 and IPv6 protocols of the network layer, TCP and UDP protocols of the transport layer, in additional to many protocols for the application layer including but not limited to HTTP, DNS, POP, and IMAP. Data transmission medium, signals types, and interfaces technologies will be discussed as essential components of the physical layer.
3
Fundamentals of information, computer and network security are introduced. Topics include access control, authentication, trusted computing, software and hardware security and vulnerabilities, operating system security models, how various kinds of malware function, network security devices and architecture, database vulnerability and security, computer hacking techniques and countermeasures, intrusion detection, cryptography, wireless security, and network security protocols. Students will use software and tools they learn in this course to complete a graduate level final project/paper that reflects the skills and tools they learned in the course.
3
This second course in cyber security explores advanced technological techniques and tools in cyber security. Students will use these technologies and skills to identify different categories of threats, and implement corresponding countermeasures. Student will build knowledge of the tools and protocols needed to perform, encryption and authentication of data, operating system and application security, malware operation and analysis, code-level exploits, reverse engineering, security design principles, techniques for reducing complexity, and formal security models. In addition students will gain insight into the legal, social, and political dynamics of the cyber universe. Students will use software and tools they learn in this course to complete a graduate level final project/paper that reflects the skills and tools they learned in the course.
3
Prerequisites
CPSC 50600
This course offers a thorough investigation of relational databases and DBMS, and provides a three-fold coverage of the topic: database design, programming and administration. Students will learn how to use Entity Relationship Diagrams (ERDs) to model a problem, and implement normalization in the process of database design. Structured Query Language (SQL) and database programming will be presented, students will work on lab activities involving writing SQL queries, and using high-level programming languages for accessing and manipulating databases. Students will learn about various database administration tasks including performance monitoring, user account management, query optimization, deadlock detection and resolution, and more.
3
Prerequisites
CPSC 50100
This course will present the concepts and principles of multiple user operating systems: memory, CPU, I/O device allocation, scheduling and security, memory hierarchies, performance evaluation, analytic models, simulation, concurrent programming and parallel processors. It will also discuss distributed computing principles, theory, implementations, and security. Security problems in distributed application environments will be analyzed and solutions will be discussed.
3
Development of web- and mobile-based front ends for large-scale data systems; with a focus of portability, accessibility, and intuitiveness.
3
Prerequisites
CPSC 50100, DATA 51100, or prior programming experience
Information security ultimately depends on identifying and applying available security features appropriately. This course discusses the development of a secure information infrastructure consisting of servers, networks, firewalls, workstations, and intrusion detection systems. It also covers principles and practice related to secure operation of existing distributed systems. Principles of penetration testing for assessment of system security are also addressed. This course will also cover network security management systems that gather and analyze information to identify possible security breaches. It includes intrusions (attacks from outside the organization) and misuse (attacks from within the organization). Students learn the use of vulnerability assessment and scanning technologies to determine the security of a network.
3
Prerequisites
CPSC 50600, or an undergraduate degree in Computer Science
This course will present key cryptologic terms, concepts, and principles. Traditional cryptographic and cryptanalytic techniques are covered plus perspective on successes and failures in cryptologic history, including both single-key algorithms and double-key algorithms. Issues in network communications, network security, and security throughout the different layers of the OSI model for data communications will also be discussed in depth, as well as the use of cryptologic protocols to provide a variety of security services in a networked environment. Authentication, access control, non repudiation, data integrity, and confidentiality issues will also be covered, plus key generation, control, distribution, and certification issues.
3
Prerequisites
CPSC 50100, DATA 51100, or prior programming experience.
Architecture and programming of parallel processing systems; distributed data storage techniques; multithreading and multitasking; redundancy; load balancing and management; distributed system event logging; programming techniques for maximizing the importance of distributed systems.
3
Prerequisites
DATA 51100 or CPSC 51500, or an undergraduate degree in Computer Science
This is a hands-on course that focuses on current strategies crackers use to attack Linux and Windows operating systems and how system administrators may counteract such attacks. Students will test their security strategies using scripts they create.
3
Prerequisites
CPSC 51500 or an undergraduate degree in Computer Science
Introduction to the field of artificial intelligence. This course covers the study of intelligent agent design and rational decision making. Topics include: goal-driven agents, search techniques, optimization, constraint satisfaction problems, logic, knowledge-based agents, probability and utility theory, Bayesian networks, and the basics of machine learning.
3
Prerequisites
CPSC 50200 or DATA 50000, and CPSC 50100, DATA 51100, or prior programming experience
Techniques for planning, learning, and decision making under uncertainty and in multi-agent environments. Topics include Markov Decision Processes (MDPs), partially observable MDPs, reinforcement learning, game theory, Bayesian networks, and special topics.
3
Prerequisites
CPSC 57100
Methods and algorithms for natural language processing (NLP). This course will present the linguistic, probabilistic, and statistical foundation that underlies NLP and introduce algorithms used in NLP with an emphasis on applying these algorithms in developing computer applications.
3
Prerequisites
CPSC 57100
This is the culminating experience for students in the M.S. Cybersecurity, and it is designed to give students an opportunity to integrate all that they have learned from prior coursework in the program. Students will select and explore a topic of current research interest in the information security field, or they will implement a project germane to information security. In either case, the student will document their findings and accomplishments in a well-researched scholarly paper and present it to their faculty and peers. Students will work closely with a faculty advisor according to the traditional mentor-student graduate model to produce a publication-worthy document that can serve as a reference for future students and faculty.
3
Prerequisites
A student must have earned at least 21 credit hours in the M.S. Cybersecurity program to take this course.
Introduction to research in Computer Science. Topics include literature review, common mathematical proof techniques, and basic algorithm analysis. Additionally, the research process will be presented, including design, methodology, and ethics.
3
Prerequisites
Completion of all required foundation courses or an undergraduate degree in Computer Science
This is an advanced course that enables students to carry out independent study under the supervision of a faculty member.
1-3
Tools, patterns, and principles of object-oriented software development that lead to high-quality, team-produced, extensible code for the enterprise; object-oriented testing strategies; UML modelling of software systems; source-code control; comparative approaches to software development; enterprise software architecture.
3
Prerequisites
CPSC 50300
This course starts by introducing students to basic software engineering concepts. Activities performed at each stage of the software development life cycle are introduced and discussed. Students will be introduced to the tasks and models a development team needs to successfully complete a software project. Topics will include software development processes, software requirements and specification, system design and analysis, configuration management, quality assurance activities, software project management, project release planning, and software engineering ethics.
3
Prerequisites
CPSC 50300
This course examines undecidability, computational complexity, and models of computations. Topics include languages and automata, Turing machines, reductions, time and space complexity classes, and completeness.
3
Prerequisites
CPSC 50200 and CPSC 50300
This course offers a thorough investigation of principles, techniques, and tools used in designing and structuring complex software systems. Several architectural styles will be investigated including Service Oriented Architectures, microservices, pipes and filters, Model-View-Controller, and more. Course will shed light on different ways software architecture impacts and is impacted by technology stack, software process, evolving business needs, business model, etc. Other topics such as architecture modeling, documentation and architectural quality measures will be introduced.
3
Prerequisites
CPSC 60000
This course covers software testing principles, techniques and best practices used in the development of high-quality software systems. Course will follow a hands-on approach to various types of functional testing including unit, integration and user acceptance testing as well as non-functional testing including load, performance and security testing. Code reviews, requirements walk-throughs, code quality metrics and other process related quality assurance concepts will be investigated.
3
Prerequisites
CPSC 60000
This course teaches concepts, processes and techniques of Agile Software Development. Topics include managing small scrum teams, running effective stand ups and post-mortems meetings, measuring team velocity, and several others. Course touches briefly on traditional project methodology, leadership skills, conflict management, software maturity framework, legal and ethical codes, etc.
3
Prerequisites
CPSC 60000
This course provides an overview of display devices and applications, point-plotting techniques, two-dimensional transformations, clipping and windowing, lighting, and three-dimensional techniques. Students are also introduced to interactive computer graphics, animation and graphics applications. Students explore these concepts using C++ and the OpenGL programming interface.
3
Prerequisites
CPSC 50100
This course covers the concepts and tools required to write a 2D video game. Topics include the main game loops, coordinate systems, game design, user input, bitmaps, sprites, particle systems, sound effects, music and AI. Algorithms and data structures for video games are discussed in depth, including state machines, collision detection, and sorting. The C++ language, modern tools and libraries are used to create an arcade game.
3
Prerequisites
CPSC 61200
In this course, concepts learned in CPSC 57600 are expanded with the creation of a larger project. Students create a video game in a group setting using an IDE, SDK and platform of their choice. Advanced topics such as modern tools, 3D engines and physics are discussed. A survey a relevant collaboration tools is explored, as well as advanced debugging and regression techniques.
3
Prerequisites
CPSC 62000
This course provides an overview of current cryptocurrency systems, including Bitcoin and Ethereum, and presents the algorithms that make them possible. Students will learn how a blockchain is constructed to produce a secure distributed ledger, and how wallets and mining work. Ethical and legal issues related to cryptocurrencies will be discussed. The course contains a project in which students will write code to implement their own cryptocurrency.
3
Prerequisites
CPSC 50100
While many tools exist for examining digital systems, the frenetic pace at which the cyber threat evolves means that hackers are constantly discovering new ways to hide their tracks. Digital forensics specialists who lack a programmer's understanding of how data are stored and hidden and how tools are written to examine these systems will forever be limited to using the tools others create. This course prepares digital forensics experts who can write their own digital forensics tools.
3
Prerequisites
CPSC 50100 and CPSC 50600, or an undergraduate degree in Computer Science
This course introduces the student to the modeling, identification, and control of robotic systems. The course focuses on the implementation of identification and control algorithms on a two-link robot. Topics include the mathematical modeling of robotic systems and the analysis, simulation, and implementation of both linear and nonlinear representations of such systems. The design and integration of sensors and actuators and algorithms for responding and controlling these devices will be pursued.
3
Prerequisites
CPSC 57100
An introduction to the concepts and techniques of implementing cloud computing through the use of virtualization and distributed data processing and storage. Topics include operating system virtualization, distributed network storage, distributed computing, cloud models (IAAS, PAAS, and SAAS), and cloud security.
3
Prerequisites
CPSC 51500 or an undergraduate degree in Computer Science
This course provides a study of the structures of selected programming languages related to ALGOL 60 and LISP. Emphasis is placed on semantics rather than syntax of the programming languages. Backus-Naur Form, recursion, parameter transmitting techniques, and an introduction to formal language theory is covered. Functional programming is also discussed. A term project is required.
3
Prerequisites
CPSC 50300
This course explores the security of wireless data networks. It describes the standards that govern wireless communications and security, the physics of the various approaches to wireless data security, the attacks against wireless systems, and techniques for thwarting such attacks. The course discusses the various 80.11 technologies as well as cell phone, satellite, and Bluetooth approach.
3
Prerequisites
CPSC 50600, or an undergraduate degree in Computer Science
This course examines vulnerabilities seen in a wide variety of software technologies, including databases, file systems, and web services. Examples on the discovery, exploitation, and prevention of security flaws in web and mobile applications will be provided. Students will learn how to build, extend and manipulate scripts and applications that compromise systems. They will use a number of techniques for exploiting vulnerabilities in a variety of computer systems. Students will build port scanners, construct botnets, write exploits, create their own forensic analysis and network traffic analysis tools, develop web reconnaissance applications, implement scripts for examining and exploiting a wireless network, and craft malware that evade antivirus tools.
3
Prerequisites
CPSC 50600 and CPSC 52500
An introduction to the concepts and techniques of implementing and securing cloud computing through the use of virtualization and distributed data processing and storage. Topics include operating system virtualization, distributed network storage, distributed computing, cloud models (IAAS, PAAS, and SAAS), and techniques for securing cloud and virtual systems.
3
Prerequisites
CPSC 51500 or an undergraduate degree in Computer Science
This course focuses on the practice of digital forensics across multiple platforms and technologies. It emphasizes the role of forensics in countering advanced persistent threats (APTs), which are sophisticated, coordinated attacks that employ a variety of techniques to attempt to compromise a system. Students investigate case studies describing various kinds of attacks against an organization. In working through these case studies, students learn how to perform forensic analyses of network traffic, mobile device file systems, memory, and malware. Students learn how the engines of forensics tools work so that they can perform their analyses even as the use of anti-forensics techniques continues to grow.
3
Prerequisites
CPSC 52500 or an undergraduate degree in Computer Science
This course presents essential concepts and hands-on techniques for conducting analysis of Network Intrusions and Cybercrime in an organization. This course discusses log file analysis, gathering evidence from all networked devices, and router forensics. It also covers principles and practice related to examination of internal and external cyber-attacks, cybercrimes, e-mail crimes and violations, corporate espionage, copyright and trademark violations.
3
Prerequisites
CPSC 67300
This course presents the essential concepts and hands-on techniques for recovering evidence, data and corporate assets from mobile devices such as iPhones, windows mobile phones, Android phones, iPads, Tablet PCs, and iPods. The course discusses forensics acquisition, analysis and reporting of evidence retrieved from mobile devices. Students will learn how to recover passwords, deleted voicemails, photos and text messages, geotagged metadata from camera phones, and data from various apps that run on mobile devices.
3
Prerequisites
CPSC 67300
The critical infrastructures of a nation include utility systems like power, water, and natural gas delivery systems, as well as transportation networks, banking and finance, and emergency services.To operate more efficiently, the computer systems supporting these infrastructures are converging, and this has introduced new vulnerabilities to industrial and critical infrastructure systems. This course describes critical infrastructures and industrial control systems are supported by computer technology, identifies and explains in technical detail the vulnerabilities that affect this technology, and explain how to design solutions to counteract these vulnerabilities.
3
Prerequisites
CPSC 50600, and either CPSC 50500 or an undergraduate degree in Computer Science
This course will focus on how to configure and operate numerous networking devices such as a switches, routers, and firewalls. Students will create their own functioning network and be able to apply features such as port blocking, AAA security, ACLs and NAT, PKI/cryptography, and threat mitigation/containment. Students will be introduced to different types of routing such as static, RIP, and BGP. In addition, there will be a heavy emphasis on IPv4 and IPv6 subnetting.
3
Prerequisites
CPSC 50600, and either CPSC 50500 or an undergraduate degree in Computer Science
This course provides graduate students with an opportunity to put into practice the theoretical knowledge they learned and the skills they have earned during their program of study in the area of computer science. Students work in teams to define a problem or select a problem introduced by their faculty advisor to design, develop, and provide a substantial solution, then deploy a real-world system, demonstrate the system, and present their methodology and final product to faculty and peers.
3
Prerequisites
CPSC 59700
Students design and conduct research in an area of Computer Science. Students will work closely with a faculty advisor according to the traditional mentor-student graduate model to produce a publication-worthy document and present it to their faculty and peers.
3
Prerequisites
CPSC 59700