This
note covers the following topics:Data Networks, The Data Link Layer: Framing and
Error Detection, The Data Link Layer: ARQ Protocols, Introduction to Queueing
Theory, Burke's Theorem and Networks of Queues, Reservations Systems M/G/1
Queues with Priority, Packet Multiple Access: The Aloha Protocol, Local Area
Networks, Fast Packet Switching, Broadcast Routing, Routing in Data Networks,
Optimal Routing, Flow and Congestion Control, Higher Layer Protocols: TCP/IP and
ATM.
Author(s): Prof.
Dimitri Bertsekas and Prof. Eytan Modiano
This
note covers the following topics:Data Networks, The Data Link Layer: Framing and
Error Detection, The Data Link Layer: ARQ Protocols, Introduction to Queueing
Theory, Burke's Theorem and Networks of Queues, Reservations Systems M/G/1
Queues with Priority, Packet Multiple Access: The Aloha Protocol, Local Area
Networks, Fast Packet Switching, Broadcast Routing, Routing in Data Networks,
Optimal Routing, Flow and Congestion Control, Higher Layer Protocols: TCP/IP and
ATM.
Author(s): Prof.
Dimitri Bertsekas and Prof. Eytan Modiano
This course note introduces basic
elements of modern computer and telecommunication networks. A hybrid five-layer
reference model resembling the popular TCP/IP model will be discussed. Major
topics covered includes: Network Programming, The application layer, The
transport layer, The network layer and The link layer.
The content focuses on local area
networks and the technology for connecting them together. It is general enough
to give a broad overview of today's technologies and trends, while detailed
enough for you to see the inner workings of modern networking.