1. Computer Networks Chapter 1 : Communications Networks and Services

2. Introduction ● Computer networs are today ubiquitous ● We use network applications to introduce networks ● We see how services dictate designs ● This is meant to give you the “big picture” on network designs and uses. ● Examples: Telephone system, T.V. & Radio

3. The caller picks up the phone triggering the flow of current in wires that connect to the telephone office. The current is detected and a dial tone is transmitted by the telephone office to indicate that it is ready to receive the destination number. The caller sends this number by pushing the keys on the telephone set. Each key generates a pair of tones that specify a number. (In the older phone sets the user dials a number which in turn generates a corresponding number of pulses.) The equipment in the telephone office then uses the telephone network to attempt a connection. If the destination telephone busy, then a busy tone is returned to the caller. If the destination telephone is idle, then ringing signals are sent to both the originating and destination telephones. The ringing signals are discontinued when the destination phone is picked up and communication can then proceed. Either of the users terminate the call by putting down a receiver. Telephone Office 1. Telephone Office 2. Telephone Office 3. 4. Telephone Office 5. 6. Telephone Office Telephone Office

4. Telephone services ● Connection-oriented: prelude before comm. ● Beyond the simple connection, telephone system provides: – Tool free calls, Credit card billed calls, – reliability, high availability, low delay, – high quality (more thanjust intelligible voice), – security, privacy, – Caller ID, Call return, Call waiting, Voice mail...etc ● Cellular telephony extends to mobile users

5. Other services ● Email is very fault tolerant as an application. ● WWW is interactive and introduces some interactive use of networks. ● End user specifies URL, and protocol (http) http:\\www.alakhawayn.ma ● Protocol? Set of rules that govern interaction (chapter 2)

6. The user clicks on a link to indicate which document is to be retrieved. The browser must determine the address that contains the document. It does this by sending a query to its local name server. Once the address is known the browser establishes a connection to the specified machine, usually a TCP connection. In order for the connection to be successful, the specified machine must be ready to accept TCP connections. The browser runs a client version of HTTP, which issues a request specifying both the name of the document and the possible document formats it can handle. The machine that contains the requested document runs a server version of HTTP. It reacts to the HTTP request by sending an HTTP response which contains the desired document in the appropriate format. The TCP connection is then closed and the user may view the document. 1. 2. 3. 4. 5. 6.

7. Ever more demanding applications ● Video on demand...the future of video rental: Little tolerance to Jitter, Huge amount of data for good quality audio/video ● Audio-visual conferencing (videoconferencing), all of the above plus interactivity and little tolerance to delay.

8. Realplayer example Copyright © 1995-2000, RealNetworks, Inc. All rights reserved. RealPlayer is a trademark of RealNetworks, Inc.

9. Network Design ● Different applications>Different requirements>Diff. network design approach ● Requirements? Transfer delay, Reliability, Accuracy, Volume of info., Convenience, Speed, Cost. ● Switching approaches: Message switching, circuit switching and packet switching.

10. Minimum functionality ● A network needs to provide: – Connectivity (transmission system=cables) ● Adapted to the type of data (bits, analog,...) – Routing (switches – axchanges on a highway) – Forwarding (retransmission in th right direction) – Multiplexing (to connect access networks = trunks) – Traffic control, congestion/overload control – Network management: Monitoring of performance, cost, billing,

11. t0t0 t1t1 Network Information transmitted in a single block Information transmitted in multiple blocks

12. Full mesh Network N(N-1) connections (a) A switch provides the network to a cluster of users (b) A multiplexer connects two access networks Access network using switch =N connections

13. Metropolitan network A consists of access subnetworks a, b, c, d. Hierarchical network topology National network consists of regional subnetworks . Metropolitan network A is part of regional subnetwork . Backbone to connect MANs A A Metropolitan 1* a c b d  (a) (b) 2 3 4  

14. Addressing ● Same routes shared among several users => Necessity of addresing. ● Two types of addressing: – Hierarchical for WANs: ß.A.1 – Flat for LANs: Broadcast packets for all to see

15. Telegraph Networks ● All text represented using dots and dashes ● Transmitted over copper wire using electrical current. ● First binary digital transmission system. The more frequent the letter the shorter the message: data rate 20 bps ● Routing by operator. Message stored until forwarded: Message switching

16. Transmission capacity (bits/second) Printing telegraph Baudot multiplex T-1 carrier T-4 carrier SONET OC-48 DWDM

17. Circuit Switching ● Dedicated phone line for every pair unsustainable > Introduce switch ● Connection setup and kept for duration of call = Circuit switching ● Addressing used at setup only ● PCM to digitize voice. Multiplex 24 channels to a 1.5 Mbps T1 (US) ● Today a DWDM carries 1600 Gigbps

18. (a) A switch in the form of an operator with a patch cord panel (not shown) (b) Cords interconnect user sockets providing end-to-end connection Figure 1.10

19. Tandem CO Toll CO Tandem

20. Packet Switching ● First for dumb terminals using polling ● A more efficient line sharing: Statistical multiplexing ● Transmission over faulty lines>Error protection: Check bits ● Connectionless/datagrams or virtual connection (as in ATM)

21. (a) Time-Shared Computers & Cables for Input Devices (b) Dial In C...... TT C...... T T T Modem Pool PSTN ModemT T = terminal

22. C TTTT Response from terminal Poll to terminal

23. T T Host...... T Address Info Mux

24. T T...... T.................. New York City San Francisco Chicago Atlanta Host

25. UCLARANDTINKER USC NBS UCSB HARV SCD BBN STAN AMES McCLELLAN UTAHBOULDERGWCCASE CARN MITRE ETAC MIT ILL LINC RADC ARPANET: WAN, Distributed Routing, End-to-end Flow control)

26. (a) (b) transceivers Ethernet: LAN, Broadcasting MAC,

27. G G G G G net 1 net 2 net 3 net 4 net 5 G = gateway G Internet: Connects heterogenous networks, TCP/IP

28. Domain Name Service ● Routing and identification is based on IP address: meaningless to humans ● To give some meaning to IP numbers, we associate them with domain names.

29. Technology Regulation Market Standards

30. time Capability Initial class of invention Second type of invention Third type of invention time Capability (a)(b)