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Chapter 5 : The Internet: Addressing & Services

Chapter 5 : The Internet: Addressing & Services. Business Data Communications, 4e. Internet History. Evolved from ARPANet (Defense Department’s Advanced Research Projects Agency Network) ARPANet was developed in 1969, and was the first packet-switching network

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Chapter 5 : The Internet: Addressing & Services

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  1. Chapter 5 : The Internet: Addressing & Services Business Data Communications, 4e

  2. Internet History • Evolved from ARPANet (Defense Department’s Advanced Research Projects Agency Network) • ARPANet was developed in 1969, and was the first packet-switching network • Initially, included only four nodes: UCLA, UCSB, Utah, and SRI

  3. Switching Methods • Circuit Switching: Requires a dedicated communication path for duration of transmission; wastes bandwidth, but minimizes delays • Message Switching: Entire path is not dedicated, but long delays result from intermediate storage and repetition of message • Packet Switching: Specialized message switching, with very little delay

  4. NSF and the Internet • In the 1980s, NSFNet extended packet-switched networking to non-ARPA organization; eventually replaced ARPANet • Instituted Acceptable Use Policies to control use • CIX (Commercial Internet eXchange) was developed to provide commercial internetworking

  5. The World Wide Web • Concept proposed by Tim Berners-Lee in 1989, prototype WWW developed at CERN in 1991 • First graphical browser (Mosaic) developed by Mark Andreessen at NCSA • Client-server system with browsers as clients, and a variety of media types stored on servers • Uses HTTP (hyper text transfer protocol) for retrieving files

  6. Connecting to the Internet • End users get connectivity from an ISP (internet service provider) • Home users use dial-up, ADSL, cable modems, satellite • Businesses use dedicated circuits connected to LANs • ISPs use “wholesalers” called network service providers and high speed (T-3 or higher) connections

  7. Internet Addressing • 32-bit global internet address • Includes network and host identifiers • Dotted decimal notation • 11000000 11100100 00010001 00111001 (binary) • 192.228.17.57 (decimal)

  8. Network Classes • Class A: Few networks, each with many hostsAll addresses begin with binary 0 • Class B: Medium networks, medium hostsAll addresses begin with binary 10 • Class C: Many networks, each with few hosts All addresses begin with binary 11

  9. Subnets & Subnet Masks • Allows for subdivision of internets within an organization • Each LAN can have a subnet number, allowing routing among networks • Host portion is partitioned into subnet and host numbers • See Table 5.2 for method of calculating subnet masks

  10. Domain Name System • 32-bit IP addresses have two drawbacks • Routers can’t keep track of every network path • Users can’t remember dotted decimals easily • Domain names address these problems by providing a name for each network domain (hosts under the control of a given entity) • See Figure 5.6 for example of a domain name tree

  11. DNS Database • Hierarchical database containing name, IP address, and related information for hosts • Provides name-to-address directory services

  12. Quality of Service (QoS) • Real-time voice and video don’t work well under the Internet’s “best effort” delivery service • QoS provides for varying application needs in Internet transmission

  13. Categories of Traffic • Elastic • Can adjust to changes in delay and throughput access • Examples: File transfer, e-mail, web access • Inelastic • Does not adapt well, if at all, to changes • Examples: Real-time voice, audio and video

  14. IPv4 Type of Service Field • Allows user to provide guidance on individual datagrams • 3-bit precedence subfield • Indicates degree of urgency or priority • Queue Service & Congestion Control • 4-bit TOS subfield • Provides guidance on selecting next hop • Route selection, Network Service, & Queuing Discipline

  15. Integrated Services • Routers require additional functionality to handle QoS-based service • IETF is developing suite of standards to support this • Two standards have received widespread support • Integrated Services Architecture (ISA) • Resource ReSerVation Protocol (RSVP)

  16. Enables provision of QoS over IP-networks Features include Admission Control Routing Algorithm Queuing Discipline Discard Policy ISA Background Functions Reservation Protocol Admission Control Management Agent Routing Protocol Forwarding Functions Classifier and Route Selection Packet Scheduler Integrated Services Architecture

  17. Resource Reservation Protocol • A tool for prevention of congestion through reservation of network resources • Can be used in unicast or multicast transmissions • Receivers (not senders) initiate resource reservations

  18. RSVP Data Flows • Session • Data flow identified by its destination • Flow Descriptor (reservation request) • Flowspec • Filter Spec

  19. RSVP Message Types • Resv • Originate at multicast group receivers • Create “soft states” within routers to define resources • Propagate upstream • Path • Provides upstream routing information

  20. Differentiated Services (DS) • Provides QoS based on user group needs rather than traffic flows • Can use current IPv4 octets • Service-Level Agreements (SLA) govern DS, eliminating need for application-based assignment

  21. DS Operation • Routers are either boundary nodes or interior nodes • Interior nodes use per-hop behavior (PHB) rules • Boundary nodes have PHB & traffic conditioning • Classifier • Meter • Marker • Shaper • Dropper

  22. Token Bucket Scheme

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