Base Knowledge
Students should have the knowledge acquired in the course of Introduction to Communication Networks.
Teaching Methodologies
In theoretical classes a detailed exposition of the concepts is performed, using elucidative examples and, whenever possible, with demonstration in a simulation environment. In each practical class a topology is distributed, which should be installed and configured by the several work groups, using either the existing equipment in the laboratory or simulation environments.
Learning Results
Describe and distinguish the composition, internal architecture and operation of routers and terminals. Develop the global configuration of IOS-based routers. Perform private and public addressing plans in IP networks using sub-addressing techniques with variable length masks (VLSM). Describe the operation of the ICMP protocol. Describe the concepts and techniques adopted by link state and distance vector routing protocols. Understand the routing table lookup process. Describe the architecture and operation of the RIP, EIGRP, OSPF routing protocols. Design and configure a network according to specific requirements of a given project, applying debugging strategies in communication networks.
Program
- TCP / IP TECHNOLOGY
- Revisions
- ICMP protocol
- CONFIGURATION OF ROUTERS CISCO
- IOS concepts
- Command hierarchy
- Console access
- Address configuration
- Password management
- Password recovery procedure
- Backup copies on TFTP servers
- Back-to-back configuration of serial connections
- CDP Protocol
- Multiple and simultaneous telnet sessions.
- IP ADDRESSING
- Static addressing
- VLSM addressing
- IP ROUTING
- Introductory notions
- Routing table processing and lookup algorithm
- Level 1 and level 2 routes
- Parent and child routes
- Implicit, static and dynamic routing
- Distance vector routing protocols
- RIPv1 routing protocol
- Classless routing
- CIDR Approach
- RIPv2 routing protocol
- EIGRP routing protocol
- Link-state routing protocols
- OSPF routing protocol
- OSPF areas
- IPv6
- Motivation
- Addressing
- Transition strategies
- Dual battery in IOS
- IPv6 tunnels
- Static addressing
- Configuration of RIPng routing protocol
- Configuration of EIGRPv6 routing protocol
- Configuration of OSPFv3 routing protocol
Curricular Unit Teachers
Internship(s)
NAO
Bibliography
- Fall, K., & Stevens, W. (2011). TCP/IP Illustrated, Volume 1: The Protocols (Addison-Wesley Professional Computing Series) (2nd ed.). Addison-Wesley Professional. (1A-6-76 (ISEC) – 08813)
- Lammle, T. (2016). CCNA Routing and Switching Complete Study Guide: Exam 100-105, Exam 200-105, Exam 200-125 (2nd ed.). Sybex. (1A-6-156 (ISEC) – 12786)
- Tanenbaum, A., & Wetherall, D. (2010). Computer Networks (5th Edition) (5th ed.). Pearson. (1A-6-149 (ISEC) – 11870) (1A-6-145 (ISEC) – 11704)
- Santos, L., Santos, A., Marinho, J., & Rosado, J. (2008). CCNA 1: Network Fundamentals 4.0. ISEC. (1A-6-190 (ISEC) – 14820)
- Santos, L., Santos, A., Marinho, J., & Rosado, J. (2008). CCNA 2: Routing Protocols and Concepts 4.0. ISEC. (1A-6-191 (ISEC) – 14821)
Complementary bibliography
- Buhagiar, J. (2017). CCNA Routing and Switching Practice Tests: Exam 100-105, Exam 200-105, and Exam 200-125 (1st ed.). Sybex.