2023-2024 Academic Catalog 
    
    May 10, 2024  
HELP
2023-2024 Academic Catalog

Combined Computer Engineering, BS & Cyber Security, MS

Return to {$returnto_text} Return to: Programs of Study - Department/School

The combined B.S..in Computer Engineering/M.S. in Cybersecurity program allows students to earn a B.S. in Computer Engineering and an M.S. in Cybersecurity in 5 years. Up to 9 semester credit hours of graduate electives at the CS/CEG 6000/7000 may be double-counted and applied to both the B.S. and M.S degree requirements.

Admission Requirements

  • Full-time student
  • Computer engineering major
  • Have accumulated between 60 and 90 credit hours toward degree
  • Minimum cumulative GPA of 3.2
  • Overall GPA in computer science and engineering courses of at least 3.2
  • Complete the admission application

Once admitted to the program, the student must complete a program of study for the M.S. in Cybersecurity.

B.S. Program Learning Objectives

Within five years after graduation, graduates of our Bachelor of Science in Computer Engineering program shall:

  • demonstrate employer and peer-recognized expertise as computing and engineering professionals with the ability to analyze, design, and evaluate solutions to complex engineering problems.
  • demonstrate adaptability to evolving technology and workforce needs through sustained learning applicable to the computer engineering discipline through self-study, professional training programs, and graduate education.
  • demonstrate engagement in social, ethical, professional, and leadership responsibilities to the discipline through teamwork, professional societies, and computing and engineering-related activities within the community.
  • demonstrate an in-depth understanding of a broad spectrum of hardware and software components and their interactions within modern computational systems.
  • demonstrate a commitment to teamwork and working with others of diverse cultural and interdisciplinary backgrounds.

M.S. Program Learning Objectives

Students who complete the M.S. in Cyber Security will have:

  • The ability to integrate and apply graduate cybersecurity knowledge to solve complex cybersecurity issues and challenges
  • The ability to understand and integrate new knowledge within the field of cybersecurity into their professional activities
  • The ability to recognize the need for, and engage in lifelong learning
  • A deeper understanding of the breadth and depth of cyberspace and the inefficiencies and shortcomings of our existing evaluation systems to deal with cybersecurity threats
  • An understanding of the unique characteristics of cyberspace and how these unique characteristics affect/influence cybersecurity threats
  • The ability to identify social, political, and economic factors/impacts of cyber threats and be able to identify and discuss ethical issues related to cybersecurity and privacy
  • Recognition of the basic concepts of cybersecurity defense and be able to use software tools for malware identification and elimination, data encryption and transmission, and key-based authentication.

B.S. Program Learning Outcomes

Students who complete the Bachelor of Science in Computer Engineering will have:

  • an ability to apply knowledge of mathematics, science, and engineering.
  • an ability to design and conduct experiments, as well as to analyze and interpret data.
  • an ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.
  • an ability to function on multidisciplinary teams.
  • an ability to identify, formulate, and solve engineering problems.
  • an understanding of professional and ethical responsibility.
  • an ability to communicate effectively.
  • the broad education necessary to understand the impact of engineering solutions in a global, economic, environmental, and societal context.
  • a recognition of the need for, and an ability to engage in life-long learning.
  • a knowledge of contemporary issues an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice.

M.S. Program Learning Outcomes

  • The ability to integrate and apply graduate cybersecurity knowledge to solve complex cybersecurity issues and challenges.
  • The ability to understand and integrate new knowledge within the field of cybersecurity into their professional activities.
  • The ability to recognize the need for, and engage in life-long learning.
  • A deeper understanding of the breadth and depth of cyberspace and the inefficiencies and shortcomings of our existing evaluation systems to deal with cybersecurity threats.
  • An understanding of the unique characteristics of cyberspace and how these unique characteristics affect/influence cybersecurity threats.
  • The ability to identify social, political, and economic factors/impacts of cyber threats and be able to identify and discuss ethical issues related to cybersecurity and privacy.
  • Recognition of the basic concepts of cybersecurity defense and be able to use software tools for malware identification and elimination, data encryption and transmission, and key-based authentication.

For More Information

 

Program Requirements:

I. Wright State Core: 42 Hours

Communications: 6 Hours

Mathematics: 4 Hours

Global Traditions: 6 Hours

Required

Arts/Humanities: 3 Hours

Social Sciences: 6 Hours

Natural Science: 10 Hours

Required

Additional Core Courses: 7 Hours

  • Credit Hour(s): 4
  • Additional courses in MTH, STT, CHM, BIO, PHY, or EES appropriate for EES appropriate for science or engineering majorsCredit Hour(s): 3

II. Computer Science and Engineering Courses: 59 Hours

A. Required Computer Science Courses: 11 Hours

B. Required Computer Engineering Courses: 25 Hours

C. M.S. Prerequisite Requirement: 3 hours

CEG 3400

D. B.S. - M.S. Dual Credit Electives: 9 hours

E. Other Required Engineering Courses: 11 Hours

III. Required Mathematics/Statistics Courses: 11 Hours

IV. General Electives: 8 Hours

Electives may be from any area of study approved by the Department of Computer Science and Engineering

V. Project Option: 21 hours

A. Cyber Security core courses:

The 9 credit hours of the B.S. - M.S. Dual Credit Electives may be M.S. Cyber Security Core Classes or Cyber Security Electives.

B. Cyber Security Electives:

The 9 credit hours of the B.S. - M.S. Dual Credit Electives may be M.S. Cyber Security Core Classes or Cyber Security Electives.

C. Project: 6 hours

V. Thesis option: 21 hours

A. Cyber Security core courses:

The 9 credit hours of the B.S. - M.S. Dual Credit Electives may be M.S. Cyber Security Core Classes or Cyber Security Electives.

B. Cyber Security Electives:

The 9 credit hours of the B.S. - M.S. Dual Credit Electives may be M.S. Cyber Security Core Classes or Cyber Security Electives.

C. Thesis: 9 hours

Submission of an approved CS Master’s thesis

Total: 141 hours

Return to {$returnto_text} Return to: Programs of Study - Department/School
Catalog Navigation
  Catalog Home
  Programs of Study - Alphabetical
  Programs of Study - Department/School
  Other Programs
  Course Descriptions
  About Wright State University
  Accreditation
  Academic Calendar
  Admission
  Policies and Resources
  Business, Raj Soin College of
  Engineering and Computer Science, College of
  Graduate Programs and Honors Studies, College of
  Health, Education, and Human Services, College of
  Lake Campus
  Liberal Arts, College of
  Medicine, Boonshoft School of
  Science and Mathematics, College of
  University College