Program Overview

Learn Cybersecurity and Network Engineering best practices in the design of secure, modern networks as well as how to protect computers and network systems. Combining security theory and hands-on practice, our bachelor’s degree course topics include computer systems, mobile and network forensics, Windows and Linux security, incident response, evolving threats, and the proper use of specific security tools.

Prepare for a career in networking and cybersecurity industries with the Bachelor of Science degree program in Cybersecurity and Network Engineering at New England Tech.

NEIT offers one of the best network engineer degrees around. The Department of Homeland Security and the National Security Agency have designated NEIT as a National Center of Academic Excellence in Cyber Defense (CAE-CD), adding credence to our network engineering and cybersecurity degree programs.

If you love the challenge and excitement of tackling critical cybersecurity threats, this bachelor’s program is one of the best courses to propel you to the front lines of this critical industry. As a graduate, you would be eligible to take internationally recognized exams like the CompTIA Security +, CCNA, and MCSA exams.

 

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Home to Central Rhode Island’s only Cyberbit Simulation Range
Cyberbit

NEIT is home to Central Rhode Island’s only Cyber Simulation Range. The NEIT Cyberbit Range is a state-of-the-art virtual simulation tool will that will provide the critical hands-on training and confidence that Cybersecurity students will need to stand out and meaningfully contribute to a real-world cybersecurity team beyond graduation. Through a partnership between New England Tech and Cyberbit, the simulation platform trains students and IT professionals through exercises that are virtually identical to the technically complex and high-pressure situations they will face in the real world.

Full Description

The Cybersecurity and Network Engineering program, offered by the Information Technology Department, will prepare graduates for real-life careers in the networking and cybersecurity industries.

The Bachelor of Science degree is ideal for students who already possess an Associate in Science degree in Network Engineering or a related discipline and continues on the base built during the associate degree.

Explore and further your knowledge of the world of network security and develop problem-solving skills and expertise in cybersecurity and related technologies. This degree program gives students more hands-on experience in the management of Local Area Networks (LANs), intranets, Wide Area Networks (WANs), and exposure to configuring and managing web servers.

This degree-level curriculum includes core topics in the realm of cybersecurity, such as computer systems, mobile and network forensics, Windows and Linux security and incident response.

Students will learn best practices for secure, modern network design as well as how to secure existing computers and networks. Students will learn about evolving threats and the proper use of specific security tools. The program focuses on security theory and hands-on practice, with relevant software, website resources, and networking technology.

Courses like incident response show how to investigate intrusions in computer networks and systems and document malicious software incidents. Such skills and experience in hardware and software for security network management are important in many related fields like software development.

Our faculty have significant industry experience, and can help you network for cooperative learning experiences and full-time positions.

A key feature of this network engineering degree is a senior project and the opportunity to choose between additional coursework or a cooperative learning experience in the final two terms. In the senior project, each student works with a faculty member to develop and present a project that focuses on a particular topic and allows students to bring together knowledge gained throughout the program.

The cooperative learning experience, based on industry demand and with the approval of the IT Department Chair, may be available during the final two terms of the program. These experiences (paid or unpaid) allow students to receive college credit and to work off campus in an organization where they will practice and enhance their technical skills.

Typically, and when available, students will work in the same organization for the final two terms of the bachelor’s degree program.

Graduates of this network engineering degree will be eligible to take such internationally recognized certification exams as the CompTIA Security + and Network+ exams, the Cisco Certified Network Associate Certification (CCNA), and the Microsoft Certified System Administrator (MCSA).

With a Bachelor of Science degree in Cybersecurity and Network Engineering, students can compete for positions like systems operations and maintenance professional, network security specialist, digital forensics and incident response specialist, vulnerability analyst, and LAN managers. Positions in law enforcement will also be attainable.

While the emphasis of the program is on network security, graduates qualify for positions advertised as network administrators, network engineers, and network analysts. According to the U.S. Bureau of Labor Statistics, jobs for network and computer systems administrators will grow in coming years with enterprises investing in newer technology, adding to the already-high demand for IT workers.

Upon successful completion of this program, students can also continue into the NEIT Master of Science in Cybersecurity Defense degree program.

Potential Career Opportunities

Our program gives you the qualifications to pursue job positions in network security and engineering, and cybersecurity in various sectors. These roles may include:

Digital Forensics Specialist

FBI – Cybersecurity Analyst

Information Security Analyst

Network Engineer or Analyst

Systems or Network Administrator

Cybersecurity Analyst or Engineer

Network Security Specialist

Incident Response Specialist

Vulnerability Specialist

LAN Manager

FAQs

  • What degree does a network engineer need?

    You usually need a bachelor’s degree in a computer-related field, like computer engineering, information systems, or computer science. Of course, having a network engineering degree would be a great fit. Employers also look for experience in network administration, IT systems, and working knowledge of network security measures.

  • What kind of degree do you need for a career in cybersecurity?

    Cybersecurity is an in-demand field. You can get entry-level positions in cybersecurity by doing an associate degree program. However, for a lot of jobs out there, you will need a bachelor’s degree in cybersecurity or fields like IT or Computer Science, which usually takes four years to complete.

  • What do I need to become a network engineer?

    We recommend completing a bachelor’s degree program in network engineering. Identify the network engineering path and specialization you want to take — like network security specialist, cloud network architect, or full stack network engineer (FSNE). You also need relevant IT experience after your degree, and don’t forget to grow your skills with relevant certifications like CompTIA A+, MCSA, or CCNA.

  • Is network engineering a good career?

    Network engineering is a growing profession. The Bureau of Labor Statistics (BLS) entry-level network engineer can earn a good salary (numbers may change due to experience, geography and other factors). Network engineers with a bachelor’s degree typically earn more than those with an associate degree or high school education. If you love the field, this is your chance to make a career out of your passion.

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Program Mission, Goals, and Outcomes

Program Mission

The mission of the Cybersecurity and Network Engineering bachelor’s program is to provide preparation for the field of information technology with a focus on cybersecurity and network engineering.

Through a combination of theory, labs, and optional field experience, the program emphasizes the application of knowledge to the specifications and requirements of the cybersecurity of computer networks, information assurance, network engineering and computer support industries. It’s also one of the courses that teaches students to strive towards providing and enhancing a productive business environment.

The Cybersecurity and Network Engineering bachelor’s program provides more depth and breadth with topics learned in the Information Technology Cybersecurity and Network Engineering associate program, and to introduce more advanced concepts and practices with topics beyond what that program covers.

Program Goals

  1. Through participation in a Senior Project or Internship, provide appropriate learning opportunities for students to acquire the theoretical knowledge, applicable skills, and the professional attitude necessary to function as an IT professional requiring intermediate and advanced skills.
  2. Educate students in the skills required to gather and analyze the information that they need to successfully translate business scenarios into technical solutions through appropriate design, implementation, and troubleshooting.
  3. Cultivate every student’s ability to critically analyze advanced IT problems, and efficiently and correctly troubleshoot those problems.
  4. Provide an environment that encourages self-learning and lifelong learning by furthering each student’s ability to adapt to and incorporate new concepts, ideas, and evolving technologies.
  5. Strive to instill in each student a sense of professional commitment and integrity with respect to the security and privacy of clientele and information, the rights of copyright holders, and the inherent responsibilities of license users.
  6. Help prepare students to acquire various entry and intermediate level industry certifications.

Program Outcomes

Graduates of this program will be able to:

  1. Apply practical and theoretical network engineering knowledge based upon the foundation concepts defined in an integrated environment, while understanding how proper design applies to information security.
  2. Research, formulate and critique security policies regarding the collection, preservation, safeguarding and disposition of personal and organizational information by performing risk management and threat awareness.
  3. Create, follow, and meet objectives of a project plan and recognize the need for adaptation, adjustments, and restructuring of the plan, both as an individual IT professional, and in a team environment.
  4. Develop organizational business continuity plans and implement them by analyzing digital evidence to determine user and intruder activity on systems.
  5. Demonstrate effective oral and written communications with supervisors, subordinates, team members and clients. In particular, students should exhibit lucid, clear and concise technical and professional communication as well as be able to communicate complex technical ideas in layman’s terms to non-technically trained people.
  6. Provide network and system administration support with security auditing services in a responsible and ethical manner that complies with applicable laws and regulatory standards.

For the latest listing of courses offered, please review our University Catalog here.

Q&A and Technical Standards

Questions & Answers

  1. When do my classes meet?
    Day Classes: Technical classes normally meet for at least three hours a day for up to five days a week. Classes normally begin in the early morning (7:45 a.m.), late morning (usually 11:25 a.m.), or mid-afternoon. The time slot for your program may vary from term to term.Evening Classes: Technical classes meet on the average of three nights a week, although there may be times when they will meet four nights a week. Classes normally begin at 5:45 p.m.In addition, to achieve your bachelor’s degree, you will take a total of approximately seven liberal arts courses, which will be scheduled around your program schedule over the course of your entire program. Each liberal arts course meets approximately four hours per week. Liberal arts courses are offered days, evenings, and Saturdays.At the beginning of each term you will receive a detailed schedule giving the exact time and location of all your classes. The College requires that all students be prepared to take classes and receive services at any of NEIT’s locations where the appropriate classes and services are offered.When a regularly scheduled class falls on a day which is an NEIT observed holiday (Columbus Day, Veterans Day, Martin Luther King, Jr. Day, and Memorial Day), an alternate class will be scheduled as a make up for that class. The make-up class may fall on a Friday. It is the student’s responsibility to take note of when and where classes are offered.
  2. How large will my classes be?
    The average size for a class is about 20 to 25 students; however, larger and smaller classes occur from time to time.
  3. How much time will I spend in lab?
    Almost half of your technical courses consist of laboratory work. In order for you to get the most out of your laboratory experiences, you will first receive a thorough explanation of the theory behind your lab work.
  4. Where do my classes meet?
    Students should be prepared to attend classes at any of NEIT’s classroom facilities: either at the Post Road, Access Road, or East Greenwich campus.
  5. How long should it take me to complete my program?
    To complete your degree requirements in the shortest possible time, you should take the courses outlined in the prescribed curriculum. For a typical six-term curriculum, a student may complete the requirements in as little as 18 months.To complete all your degree requirements in the shortest time, you should take at least one liberal arts course each term. Students who need more time to complete their curriculum may postpone some of the liberal arts courses until after the completion of the technical requirements. Students are provided up to two additional terms of study to complete the liberal arts requirements without any additional tuition assessment fee. During these additional terms of study, students are required to pay all applicable fees.Students may also elect to complete some of their liberal arts requirements during Intersession, a five-week term scheduled between Spring and Summer Quarters. Students will not be assessed any additional tuition for liberal arts courses taken during the Intersession but may be assessed applicable fees.Students wishing to extend the number of terms needed to complete the required technical courses in their curriculum will be assessed additional tuition and fees.
  6. Is NEIT accredited?
    NEIT is accredited by the New England Commission of Higher Education. Accreditation by NECHE is recognized by the federal government and entitles NEIT to participate in federal financial aid programs. Some academic departments have specialized professional accreditations in addition to accreditation by NECHE. For more information on accreditation, see NEIT’s catalog.
  7. Can I transfer the credits that I earn at NEIT to another college?
    The transferability of a course is always up to the institution to which the student is transferring. Students interested in the transferability of their credits should contact the Office of Teaching and Learning for further information.
  8. Can I transfer credits earned at another college to NEIT?
    Transfer credit for appropriate courses taken at an accredited institution will be considered upon receipt of an official transcript for any program, biology, science, and mathematics courses in which the student has earned a “C” or above within the past three years and for English or humanities courses in which the student has earned a “C” or above within the last ten years. An official transcript from the other institution must be received before the end of the first week of the term for transfer credit to be granted for courses to be taken during that term. Students will receive a tuition reduction for the approved technical courses based on the program rate and will be applied against the final technical term of the curriculum’s tuition amount. No tuition credit is provided for courses which are not a part of the technical curriculum.
  9. What is the “Feinstein Enriching America” Program?
    New England Institute of Technology is the proud recipient of a grant from the Feinstein Foundation. To satisfy the terms of the grant, the College has developed a one-credit community enrichment course which includes hands-on community enrichment projects. The course can be taken for a few hours per term, spread over several terms. Students who are already engaged in community enrichment on their own may be able to count that service towards course credit.
  10. How many credits do I need to acquire my Financial Aid?
    In order to be eligible for the maximum financial aid award, you need to maintain at least 12 credits per academic term.
  11. What does my program cost?
    The cost of your program will be as outlined in your enrollment agreement, along with your cost for books and other course materials. Students who decide to take more terms than the enrollment agreement describes to complete the technical courses in their curriculum will be subject to additional fees and possible additional tuition costs. Students who elect to take the technical portion of the degree requirements at a rate faster than the rate prescribed in the curriculum and the enrollment agreement will be assessed additional tuition.Students who require prerequisite courses will incur additional tuition and fees above those outlined in their enrollment agreement.If a student elects to take a course(s) outside of the prescribed curriculum, additional tuition and fees will be assessed.Remember, students who withdraw and re-enter, one time only, pay the tuition rate that was in effect for them at the time of their last day of attendance for up to one year from their last day of attendance. Second re-entrees and beyond pay the tuition rate in effect at the time they re-enter. The most economical way for you to complete your college degree is to begin your program now and continue your studies straight through for the six terms necessary to complete your degree requirements.
  12. What kind of employment assistance does NEIT offer?
    The Career Services Office assists NEIT students and graduates in all aspects of the job search, including resume writing, interviewing skills, and developing a job search strategy. Upon completion of their program, graduates may submit a resume to the Career Services Office to be circulated to employers for employment opportunities in their fields. Employers regularly contact us about our graduates. In addition, our Career Services Office contacts employers to develop job leads. A strong relationship with employers exists as a result of our training students to meet the needs of industry for over fifty years. No school can, and NEIT does not, guarantee to its graduates’ employment or a specific starting salary.
  13. Where will job opportunities exist?
    Graduates have obtained employment in the local area. However, one of the most exciting aspects of this program is the ability to look nationally for employment opportunities.
  14. What kind of jobs will I be qualified to look for?
    Generally, jobs will exist in the entry-level positions in the computer industry including positions such as systems operations & maintenance professional, network security specialist, digital forensics and incident response specialist and vulnerability analyst, network administrators, network engineers and network analysts.

Technical Standards

These technical standards set forth by the IT department establish the essential qualifications considered necessary for students admitted to the program. The successful student must possess the following skills and abilities or be able to demonstrate they can complete the requirements of the program with or without reasonable accommodation, using some other combination of skills and abilities.

Cognitive Ability

  • Good reasoning and critical thinking skills.
  • Ability to learn, remember and recall detailed information and to use it for problem solving.
  • Ability to deal with materials and problems such as organizing or reorganizing information.
  • Ability to use abstractions in specific concrete situations.
  • Ability to separate complex information into its component parts.
  • Ability to perform tasks by observing demonstrations.
  • Ability to perform tasks by following written instructions.
  • Ability to perform tasks following verbal instructions.
  • Possession of basic keyboarding skills and knowledge of computer programs.

Communications Skills

  • Ability to speak in understandable English in a classroom situation on a one-on-one basis as well as before a group.
  • Ability to communicate effectively with faculty and other students.
  • Ability to demonstrate and use the knowledge acquired during the classroom training process.
  • Ability to verbally express technical concepts clearly and distinctly.
  • Ability to express thoughts clearly.

Adaptive Ability

  • Ability to remain calm in the face of computer lab equipment and/or software failure.
  • Ability to maintain emotional stability and the maturity necessary to interact with members of the faculty and students in a responsible manner.
  • Ability to tolerate the differences in all students, faculty, and administration.
  • Ability to follow instructions and complete tasks under stressful and demanding conditions.
  • Ability to adapt in a positive manner to new and changing situations with an open mind and flexibility.
  • Ability to think clearly and act quickly and appropriately in stressful situations.

Physical Ability

  • Ability to sit continuously at a personal computer for long periods of time in order to learn and become proficient in computer programming and networking.
  • Ability to perform learned skills independently, with accuracy and completeness within reasonable time frames in accordance with classroom and business procedures.

Manual Ability

  • Sufficient motor function and sensory abilities to participate effectively in the classroom laboratory.
  • Sufficient manual dexterity and motor coordination to coordinate hands, eyes and fingers in the operation of computers and business equipment.

Sensory Ability

  • Visual
    • Acute enough to see clearly and interpret the contents on the computer screen.