1. BA 471 – Telecommunications and Networking Dr. V.T. Raja Oregon State University Raja@bus.oregonstate.edu

2. Outline Introduction –Analogy with effective human communication 5-layer Network Model A theoretical framework for our day-to-day interactions on the Internet Some Network Design/Topology Issues

3. Some Basic Characteristics of Effective Human Communication Sender/Receiver Messages (Words) Transmission Media Air/Printed Page Speak same language or have an Interpreter Less noisy room (or) talk loud enough

4. Some Basic Characteristics of Telecommunication Networks Source; Destination (Host) Signals (Digital/Analog) Modulation (Digital to Analog); Demodulation (Analog to Digital); Modem Transmission Media Wired/Wireless Communication Protocols/ Standards Less Interference Special devices

5. Theoretical Framework: 5-layer network model Application Layer (Layer-5) Transport Layer Network Layer Data Link Layer Physical Layer (Layer-1)

6. Protocols and addresses used at different layers of the 5-layer network model HTTP (Hyper Text Transfer Protocol) operates at the Application Layer. – Example of an application layer address: www.bus.oregonstate.edu www.bus.oregonstate.edu TCP (Transmission Control Protocol) operates at the Transport Layer. –Example of a transport layer default port address/port ID: 80 (Web); 25(E-mail)

7. Protocols and addresses used at different layers of the 5-layer network model IP (Internet Protocol) operates at the Network Layer. – Example of an IP address: 128.192.64.224 Ethernet operates at the data link layer. –Example of a DLL address: 00-B0-D0-B4-54-13

8. Application and Transport Layers User interfaces with application software using: –Application layer (e.g., web/e-mail) address Transport layer’s major function is: –Packetizing Breaking large messages into smaller packets at source Reassembling packets at final destination Creates/appends TCP header –Packet # –Source/Destination Port ID

9. Network Layer Major functions of IP at network layer are –Addressing and –Routing IP prepares IP header which contains: –Source/Destination IP Address and –Routing Information

10. Network Layer (Continued) Addressing –DHCP (Dynamic Host Control Protocol) Server Assigns IP addresses to client machines requesting an IP address –DNS (Domain Name Service) Server Similar to directory assistance – used for finding destination IP addresses. Routing –Routing tables; Routers (Tracert); Routing Protocols

11. Data Link Layer Major functions of Data Link Layer are: –Media Access Control Handling message collisions –Error Detection –Error Correction –Message Delineation Identifying beginning and ending of packets – since all computer transmissions go out as 0s and 1s over the physical layer DL layer appends a DL header and DL Trailer

12. Physical Layer Wired Media/Wireless Media: Examples –Twisted pair; Coaxial; Fiber Optic Cables –Microwave; Satellites and Cell phones Internetworking Devices: Examples –Hubs; Multiplexers –DSL/Cable Modems –Switches; Routers

13. Network Design How to support full connectivity? Design the most economic internetwork between “end-user nodes” and an existing WAN Design the most economic internetwork between “end-user nodes” and an existing WAN Usernode WAN

14. Network Design Find an economic internetworking solution Usernode A direct connection to a WAN backbone node Usernode Connection via multiplexers

15. Some Network Design Issues Major Cost Components Acquisition and installation costs of a MUX Acquisition and installation costs of a MUX Cost of high bandwidth link between MUX and WAN (Internet) Cost of high bandwidth link between MUX and WAN (Internet) Cost of low bandwidth link between end- user node and MUX Cost of low bandwidth link between end- user node and MUX

16. Network Design Management How to design a feasible and economical internetwork? Find an optimal number of MUXs to interconnect all given user nodes to some existing WAN such that... Find an optimal number of MUXs to interconnect all given user nodes to some existing WAN such that... * All user nodes are connected * User communication requirements are satisfied * Capacity constraints on each MUX is not violated * Total internetworking costs are minimized * Topology issues are considered

17. Some Network Topologies Star topology Mesh topology Bus topology Ring topology Physical versus logical topology

20. Example 1

21. Example 2

22. Example 3