Lectures:
Internet Protocol v.6: paradigm, addressing, header chaining, ICMP v. 6. DNS extensions for IPv6. Interoperability between IPv6 and IPv4.
Transmission Control Protocol : segment header, MSS. option. Connection establishment and termination.Sliding Window algorithm, retransmission strategy. Flow control, delayed ACKs, Nagle algorithm. Slow start, congestion avoidance.
Distance vector routing protocols. RIP.
Link state routing Protocols. OSPF - principle, areas, topology database, calculation of routing tables.
Routing optimization (traffic engineering). Multiprotocol routing, redistribution. Propagation of default route, route filtering, load balancing.
Autonomous systems, routing between autonomous systems. Border Gateway Protocol (BGP). External and internal BGP. Interoperability of BGP and IGP protocols.
Optimization of routes between autonomous systems; BGP attributes.
QoS in packet networks: Integrated Services and Differentiated Services. RSVP, L2 and L3 traffic classification and priorization , IEEE 802.1p, NBAR. Queueing strategies. Traffic shaping and policing.
Multimedia applications in IP networks: multicasting, L2 and L3 multicast addresses. IGMP. Multicast routing: reverse-path forwarding, distribution trees. PIM, DVMRP, MOSPF. Multicast processing in L2 switches.
Layer 2 and layer 3 switching. Multilayer switching. Inter-VLAN routing. Redundancy in switched networks: Spanning Tree protocol (802.1d), Rapid Spanning Tree (802.1w), Per-VLAN Spanning Tree, Multiple Spanning Tree (802.1s).
Design principles of routers and switches.
Design of resilient converged IP networks.
Security issues of routed and switched networks.
Laboratories:
During exercises students work with technologies discussed on individual lectures, work on their semestral projects and may consult them.
1. Seznámení s laboratoří, Práce s Cisco IOS
2. Distance Vector routing protocols, RIP
3. Link State routing protocols, OSPF
4. OSPF advanced configuration
5. Link State routing protocols, IS-IS
6. BGP basic configuration and routes redistribution
7. BGP advanced configuration and BGP routing policy
8. IPv6
9. Semestral Projects
10. Routing Optimization (IGP)
11. QoS
12. Multicasting
13. Advanced Switching Techniques
14. Presentation of student's Semestral Projects
Projects:
The goal of the project is to apply some of discussed protocols or technologies in pracice case study and document replicable results.
Internet Protocol v.6: paradigm, addressing, header chaining, ICMP v. 6. DNS extensions for IPv6. Interoperability between IPv6 and IPv4.
Transmission Control Protocol : segment header, MSS. option. Connection establishment and termination.Sliding Window algorithm, retransmission strategy. Flow control, delayed ACKs, Nagle algorithm. Slow start, congestion avoidance.
Distance vector routing protocols. RIP.
Link state routing Protocols. OSPF - principle, areas, topology database, calculation of routing tables.
Routing optimization (traffic engineering). Multiprotocol routing, redistribution. Propagation of default route, route filtering, load balancing.
Autonomous systems, routing between autonomous systems. Border Gateway Protocol (BGP). External and internal BGP. Interoperability of BGP and IGP protocols.
Optimization of routes between autonomous systems; BGP attributes.
QoS in packet networks: Integrated Services and Differentiated Services. RSVP, L2 and L3 traffic classification and priorization , IEEE 802.1p, NBAR. Queueing strategies. Traffic shaping and policing.
Multimedia applications in IP networks: multicasting, L2 and L3 multicast addresses. IGMP. Multicast routing: reverse-path forwarding, distribution trees. PIM, DVMRP, MOSPF. Multicast processing in L2 switches.
Layer 2 and layer 3 switching. Multilayer switching. Inter-VLAN routing. Redundancy in switched networks: Spanning Tree protocol (802.1d), Rapid Spanning Tree (802.1w), Per-VLAN Spanning Tree, Multiple Spanning Tree (802.1s).
Design principles of routers and switches.
Design of resilient converged IP networks.
Security issues of routed and switched networks.
Laboratories:
During exercises students work with technologies discussed on individual lectures, work on their semestral projects and may consult them.
1. Seznámení s laboratoří, Práce s Cisco IOS
2. Distance Vector routing protocols, RIP
3. Link State routing protocols, OSPF
4. OSPF advanced configuration
5. Link State routing protocols, IS-IS
6. BGP basic configuration and routes redistribution
7. BGP advanced configuration and BGP routing policy
8. IPv6
9. Semestral Projects
10. Routing Optimization (IGP)
11. QoS
12. Multicasting
13. Advanced Switching Techniques
14. Presentation of student's Semestral Projects
Projects:
The goal of the project is to apply some of discussed protocols or technologies in pracice case study and document replicable results.