Information Technology Degrees Online

Course structure
The CCNP curriculum provides the knowledge and skills necessary to deploy and maintain fully integrated network infrastructure services and applications. The curriculum focuses on the advanced skills required to manage the end-to-end network infrastructure but goes beyond core routing and switching to include applications deployed on the edge of the network, such as wireless, security and voice. It includes topics such as converged networks, quality of service (QoS), virtual private networks (VPNs) and broadband technologies. CCNP integrates next-generation network devices and services engineered to provide wire-speed delivery of concurrent data, voice, video and wireless services with optimised security. The CCNP curriculum includes four courses that align to the four certification exams that are required to obtain the CCNP certification. The four courses are:

Building Scalable Internetworks:
In this course, students will learn how to create efficient and expandable enterprise-class IP routing networks by installing, configuring, monitoring, and troubleshooting network infrastructure equipment as specified in the Enterprise Composite Network model. The routed network includes the most commonly used and emerging IP routing protocols. The course aligns with the new Building Scalable Cisco Internetworks (BSCI) 642-901 exam.

Implementing Secure Converged Wide-Area Networks:
This course will teach advanced skills required to secure and enhance services in enterprise networks for teleworkers and remote sites. It will focus on securing remote access and VPN client configuration. Aligns with the new Implementing Secure Converged WANs (ISCW) 642-825 exam.

Building Multilayer Switched Networks:
In this course, students will learn how to create efficient and expandable switched enterprise networks by installing, configuring, monitoring, and troubleshooting network infrastructure equipment as specified in the Enterprise Composite Network model. The course teaches the advanced skills required for building enterprise-class switched networks with integrated VoIP and wireless applications. It includes wireless LANs, basic Quality of Service to support voice, high-availability features, and enhanced security for switches. Aligns with the new Building Cisco Multilayer Switched Network (BCMSN) 642-812 exam.

Optimising Converged Networks:
This course teaches advanced skills required to optimise Quality of Service in converged networks supporting voice, wireless, and security applications. The course aligns with the Optimised Converged Cisco Networks ONT (642-845) exam.

The training covers advanced methods for IP routing. Scope of the course focuses on developing scalable solutions to the LAN and WAN, in particular the design and implementation of dynamic routing based on wewnątrzdomenowe protocols (EIGRP, OSPF, IS-IS) and międzydomenowe (BGP) in large networks, TCP / IP (protocols, route redistribution, filtration package updates routing tables), addressing the planning of facilities, access to facilities management and active network, reducing the excess burden on the network links.

Detailed program:
Topic 1 - Draft scalable network
Topic 2 - EIGRP
Topic 3 - OSPF
Topic 4 - Integrated IS-IS
Topic 5 - Route Optimization
Topic 6 - BGP
Topic 7 - IP Multicasting
Topic 8 - IPv6

Module 2 - Implementing a secure extensive network of convergent
Topic 1 - remote connections - requirements
Topic 2 - Calling on teleworking
Topic 3 - Virtual private networks using IPsec
Topic 4 - Implementation of MPLS
Topic 5 - Strengthening the security of Cisco equipment
Topic 6 - The fight against the threats Cisco IOS

Module 3 - Building a multi-layer network przełączanych
Topic 1 - Requirements
Topic 2 - Defining a VPN
Topic 3 - Implementing tree opinającego
Topic 4 - Implementing routing between VLANs
Topic 5 - to implement high availability in the environment kampusowym
Topic 6 - Wireless Networks
Topic 7 - Setting the switches to support voice
Topic 8 - Minimize the loss of data and services in the campuses

Module 4 - Optimizing the convergent network
Topic 1 - Requirements
Topic 2 - Implementation of Cisco VoIP
Topic 3 - Introduction to IP QoS
Topic 4 - Implementation of DiffServ QoS model
Topic 5 - Implement Cisco AutoQoS
Topic 6 - Implementation of a wireless network scalability

Core Courses in Information Systems Security

INSE 6110 - Foundations of Cryptography (4 credits)
Cryptography and cryptanalysis, mathematical background: complexity theory, number theory, abstract algebra, finite fields. Number-theoretic reference problems: the integer factorization problem, the RSA problem, the quadratic residuosity problem, computing square roots in Zn, the discrete logarithm problem, the Diffie-Hellman problem, pseudorandom bits and sequences, stream ciphers: feedback shift registers, LFSRs, RC4. Block ciphers: SPN and fiestel structures, DES, AES, linear cryptanalysis, differential cryptanalysis, side channel attacks; public key encryption: RSA, Rabin, ElGamal, McEliece, elliptic curves cryptography; hash functions: un-keyed hash functions, MACs, attacks; digital signatures: RSA, fiat-shamir, DSA, public key infrastructure; key management, efficient implementation of ciphers. A project.

INSE 6120 - Crypto-Protocol and Network Security (4 credits)
Prerequisite: INSE 6110 or equivalent.
Cryptographic protocols, authentication protocols, key distributions protocols, e-commerce security protocols. Security protocol properties: authentication, secrecy, integrity, availability, non-repudiation, atomicity, certified delivery; crypto-protocol attacks; security protocols design, implementation and analysis. OSI security architecture, models and architectures for network security, authentication using kerberos and X.509, email security (PGP, S/MIME), IP security, IPv6, web security, SSL/TLS, virtual private networks, firewalls (screening routers, packet filtering, firewall architecture and theory, implementations and maintenance, proxy servers), content filtering, denial of service attacks, wireless networks security, network security policies, intrusion detection, host-based IDS, network based IDS, misuse detection methods, anomaly detection methods, intrusion detection in distributed systems, intrusion detection in wireless ad hoc networks. A project.

INSE 6130 - Operating Systems Security (4 credits)
System security, MS Windows security, linux security, unix security, embedded and real-time OS, system reliability, OS security mechanisms, security administration, delegation of authority, group policy design, security configuration, password requirements, security services, protection models, protection levels, protection domains, capabilities, sharing, system kernel security, resource control, secure booting, firewalls and border security, security models and policies, security levels, authentication, confidentiality, integrity, access control strategies access matrix, access control list, mandatory, discretionary, monitoring, auditing, accountability, privilege, account security, file system protection, registry security, threat analysis, security attacks, security-hardened operating. A project.

INSE 6140 - Middleware and Application Security (4 credits)
Malicious code, taxonomy, viruses, worms, trojan horses, logical and temporal bombs, infection process, security properties of applications, safety, high-level security, detection approaches, ad-hoc techniques: scanning, anti-virus technology, obfuscation; dynamic analysis for security: passive and active monitoring, inline and reference monitors, sandboxing; static analysis for security: data and control flow analysis for security, type-based analysis for security; self-certified code: certifying compilers, proof carrying code, efficient code certification, typed assembly languages, certificate generation, certificate verification and validation. C and C++ security, java security, byte-code verification, access controllers, security managers, permission files, security APIs, critical APIs, protection domains, security profiles, mobile code security. A project.

INSE 6150 - Security Evaluation Methodologies (4 credits)
Security evaluation of information systems, security evaluation of software, security evaluation of products. Security code inspection, security testing, security standards, preparation of a security evaluation: impact scale, likelihood scale, severity scale. Vulnerability analysis, risk analysis, security plan elaboration. ITSEC, MARION and MEHARI methods, OCTAVE, common criteria, target of evaluation, protection profile, security functional requirement, security factors, errors, accidents, assurance requirements, assurance levels, evaluation process, compliance with the protection profile, IT security ethics, privacy, digital copyright, licensing IT security products, import and export control regulations, computer fraud and abuse, computer crime control, national and international criminal codes, incident handling, infrastructure protection and espionage laws, privacy laws, business records, security forensics, security evaluation case studies. A project.

Elective Courses in Information Systems Security

INSE 6160 - Database Security and Privacy (4 credits)
Instructor: Dr. L. Wang
Access control in relational databases; grant/revoke model; security by views; query modification; Oracle VPD; auditing in databases; information warfare in databases; multi-level database security; polyinstantiation and
covert channel; statistical database security; inference control; security by auditing; microdata security; random perturbation; watermarking and fingerprinting databases; XML database security; encrypted databases; SQL injection attack; anomaly detection in databases; P3P; Hippocratic databases; perfect secrecy-based privacy; k-anonymity model; l-diversity; multi-party privacy preserving computation; privacy in OLAP. A project. Note: Students who have received credit for INSE 691A (Database Security and Privacy) may not take this course for credit.

INSE 6180 - Security and Privacy Implications of Data Mining (4 credits)
Instructor: Dr. B. Fung
Introduction to security and privacy implications of data mining and its applications; privacy legislations and national security policies; security and privacy threats caused by current data mining techniques; risks and challenges in emerging data mining applications; attacks and prevention methods: web privacy attacks, data mining-based intrusion detection; privacy-preserving data publishing. A project. Note: Students who have received credit for INSE 691D (Security Implications of Data Mining) may not take this course for credit.

INSE 6190 - Wireless Network Security (4 credits)
Instructor: Dr. B. Zhu
Prerequisite: INSE 6110 or equivalent.
Introduction to wireless network security; security issues in cellular networks; authentication/key management in wireless LAN; security issues in mobile ad-hoc networks: trust establishment, secure routing, anonymity; selfishness & fairness in wireless networks; key distribution in sensor networks; secure data aggregation in sensor networks; security and privacy issues in RFID. A project. Note: Students who have received credit for INSE 691B (Wireless Security) may not take this course for credit.

INSE 691E - Cybercrime Investigations (4 credits)
Instructor: Mr. P. Boismenu
Introduction to cybercrimes: unauthorized access, mischief to data, possession of hacking tools, possession of child pornography; Legal aspects: Canadian judicial system, computer crime laws, charter of rights, common law, mutual legal assistance treaty, search warrants, production and assistance orders, international laws, upcoming legal changes; Investigation process: search planning, acquisition methods, environment recognition, evidence identification; Reporting process: investigation and analysis reports, notes taking; Authority of seizure; Forensic Interviews; Computer crime trials: witness preparation, court sentencing, rebuttal witness, cross-examination, testimony, credibility attacks; In-depth case Studies. A project.

Networks are the very foundation of the information-based “new economy.” There is hardly a business or organization that can operate effectively without the benefit of the latest networking technology. There is currently a significant shortage of workers with information technology skills, and the demand for trained networking professionals has never been higher. Employers are offering excellent salaries and outstanding benefits to attract educated networking professionals. Now is the time to begin your career in Network Administration at Morrisville State College.

The Network Administration concentration will teach you the fundamental skills that you will need to build a solid foundation for a career in the data communications and computer networking field. You will learn about local area networks, wide area networks, virtual private networks, intranets, and the Internet. You will obtain hands-on laboratory experience with enterprise-level network devices including switches, routers, and protocol analyzers, as well as important network operating systems including Microsoft Windows 2000 Server, Windows Server 2003, and Linux.