Network Engineering and Security
Master of Science
Jarvis College of Computing and Digital Media
Programs of Interest
0Our daily interactions with the Internet are ever-increasing in scale and complexity. What was once a packet delivery system mimicking a postal system is now an intricate multi-tiered structure of protocols and services. The ongoing development and survival of these services depends on our ability to adaptively address challenges such as securing our interactions, scaling with users and devices, and meeting the ever-changing expectations in Quality of Experience and Service Availability.
Today, researchers at DePaul are addressing the aforementioned challenges with an eye towards providing higher service levels and reducing the energy footprint of Internet operations. They are studying how to optimize operations in machine-to-machine (M2M) and Internet-of-Things (IoT) networks. New network infrastructures are being developed to operate in ad hoc situations, without relying on the Internet, to mitigate connectivity during power outages and in infrastructure-poor regions. The Internet is profoundly changing on multiple fronts. Video content is now dominating web traffic, and Internet service providers must now accommodate nearly 30 billion networked devices. Thus, we must re-examine every design choice and hold both current and future protocols to highly rigorous standards in development and performance evaluation.
The unique MS Network Engineering and Security (NES) program at DePaul University delivers both the theory and practice behind the design and maintenance of these diverse network infrastructures. Students have access to extensive lab facilities using equipment from Cisco, Juniper, and other manufacturers. Our students get hands-on practice in configuring routers, switches, and firewalls, as well as securing networks, evaluating and managing their performance, and ensuring the they meet business requirements.
We are no longer accepting applications for this program. Interested students are encouraged to apply to our MS in Cybersecurity program with a concentration in Networking and Infrastructure.
Learning Outcomes
Students will be able to:
- Describe the operations and metrics of Border Gateway Protocol (BGP) routing, including the BGP path selection process.
- Contrast IPv6 and IPv4 routing, including protocol headers, routing protocols, subnetting, tunneling and translation mechanisms.
- Describe and compare Quality of Service (QoS) techniques for providing differentiated treatment of Voice over IP (VoIP) and data packet flows.
- Design a fault-tolerant network and identity protocols to implement and manage these networks.
- Explain methods used for authentication and integrity in public-key encryptions systems, including digital signatures and PKI.
- Explain and demonstrate the operations of an Intrusion Detection System (IDS), including writing IDS rules.
Career Outcomes
92% of reporting program graduates were employed, continuing education, or not seeking employment within six months of graduation
82,000 median salary reported by program graduates six months after degree completion