Lecture 01

64
1 Lecture 01 • We begin our lecture to ask ourselves a few simple questions for this subject such as: Have you used telecommunications? • Examples! How do define “telecommunications”? why do we need it for? can we survive without it? • Different modes of telecomm applications! • The concept of convergence (to p28) (to p9) (to p13) (to p15) (to p2) (to p14)

description

Lecture 01. We begin our lecture to ask ourselves a few simple questions for this subject such as: Have you used telecommunications? Examples! How do define “telecommunications”? why do we need it for? can we survive without it? Different modes of telecomm applications! - PowerPoint PPT Presentation

Transcript of Lecture 01

Page 1: Lecture 01

1

Lecture 01• We begin our lecture to ask ourselves a few

simple questions for this subject such as:– Have you used telecommunications?

• Examples!

– How do define “telecommunications”?

– why do we need it for?

– can we survive without it?

• Different modes of telecomm applications!

• The concept of convergence(to p28)

(to p9)

(to p13)

(to p15)

(to p2)

(to p14)

Page 2: Lecture 01

2

Examples of TelecommunicationApplications

1) telephone, mobile phone Figure 1-5

2) use of Internet, web browser Figure 1-6

3) airline reservation systems - with combination of applications such as dial-up

line as shown in Figures 1-7 & 1.8

4) ATM, Octopus Figure 1-9

5) automated remote water meter reading Figure 1-10

(to p3)

(to p4)

(to p5)

(to p7)

(to p8) (to p1)

Page 3: Lecture 01

3

FIGURE 1-5 Simplified diagram of the components of a standard telephone call.

(to p2)

(a simple version)

(Note: we will learn more on how a telephone company works in the later lecture!)

Page 4: Lecture 01

4

FIGURE 1-6 The telecommunications between a home computer and an Internet access provider.

(to p2)

A version of dial-up service via telephone co

Question: How does it differ, say, if you have subscripted a broadband service in HK?

Page 5: Lecture 01

5

FIGURE 1-7 The telecommunications connections between a traveler and an airline reservation computer through a local area network.

.

(to p6)

Note: This dial-up approach still applied to most travel agents in HK, howeverits structure has changed substantially in this Internet age. How and why?

More example

Page 6: Lecture 01

6

FIGURE 1-8 The telecommunications connection between a traveler and an airline reservation computer through a leased line.

(to p2)

Another version of dial-up application but -- This special line will provide a high speed and secure ofInformation retrieval.

Page 7: Lecture 01

7

FIGURE 1-9 An ATM connected to a computer by a telecommunications line.

.

(to p2)

Note: This is a simpleversion of ATM

Question: What competitiveness has this application received ?How does ATM work in HK?

Page 8: Lecture 01

8

FIGURE 1-10 Remote reading of a water meter using telecommunications.

reserved.

(to p2)

Electricity

Question: What adv has this application brought to Businesses? Can it applied to all cities over the world?

Page 9: Lecture 01

9

Telecommunications and Networking

• What is Telecommunications?

– Tele- – Communications– Telecommunications

(to p1)

(to p10)

(to p11)

(to p12)

Page 10: Lecture 01

10

Definitions• Tele-

– means by distance or distance apart

(to p9)

Page 11: Lecture 01

11

Definitions

• communications– information pass from one place to another

(to p9)

Page 12: Lecture 01

12

Definitions

• Telecom refers as comm between parties over a distance through electrical or electromagnetic means (conventionally!)

• (note: we will spend more time to discuss more to understand what does it meant for through e means)

(to p9)

Page 13: Lecture 01

13

Why do we need Telecommunications?

1) merging of IS and networking to transmit information for business competitive power

2) obtaining information at the right place at a right time, eg digital phone to acquire local temperature

3) allowing geographic dispersion of facilities and people, such as telecommuting and e-commerce

4) allowing on-line marketing such as airline ticketing systems so that selling products can conduct directly, eg eBay, TaoBao (espeicall on Nov 11 in China)

- (to p1)

Page 14: Lecture 01

14

Answer!

Yes: If you like to live in a primitive form of a life style

No: If you live in an modern society or an Informative world (to p57)

(to p1)

Page 15: Lecture 01

15

Way to classifying telecommunication applications

• Consider Figure shown in the slide 16, we can classify each of these applications by their:– geography– Mode of connection

(to p17)

(to p23)

(to p1)

Page 16: Lecture 01

16(to p15)

Page 17: Lecture 01

17

geography

• Local area network (LAN)

• Metropolitan area network (MAN)

• Wide area network (WAN)

• Backbone

• Personal Area Network

(to p18)

(to p20)

(to p19)

(to p15)

(to p22)

(to p61)

Page 18: Lecture 01

18

Local area network (LAN)

Server

It composes of nodesAnd communicationlinks

(to p17)

(device used to connect LANs together)

(device used to share resource betweenPCs in a Lab)

Page 19: Lecture 01

19

Metropolitan area network (MAN)

(to p15)

Page 20: Lecture 01

20

Wide area network (WAN)

– covers a large geographic area and uses circuits provided by a common carrier

– many made up of a combination of switched or leased, terrestrial and satellite, and private microwave circuits

– typically span hundreds or thousands of miles and provide data transmission rates from 64Kpbs to 2Gpbs

– Semantic view (to p21)

Page 21: Lecture 01

21(to p15)

Page 22: Lecture 01

22

Personal Area Network

(to p15)

A network of a few meters, interconnecting wireless devices such as PDA,Laptops, and other devices

Page 23: Lecture 01

23

Modes of connection

• Fixed line connection

• Wireless connection

• Question: which mode should be acquired? And why?– Examples: home devices pic1, pic2, pic3

• Question: how to evaluate each of them above?

(to p25)

(to p24)

(to p15)

(to p61) (to p62) (to p63)

Page 24: Lecture 01

24

Fixed line connection

• Example:

(to p23)

Page 25: Lecture 01

25

Wireless connection

• Wireless telephone connections

• Satellite and microwave connection

(to p23)

(to p26)

(to p27)

Page 26: Lecture 01

26

Wireless telephone connections

(to p25)

Page 27: Lecture 01

27

Satellite and microwave connection

(to p25)

Page 28: Lecture 01

28

Convergence of technologies

• Convergence, which refers to coming together of two areas or two companies, is happening at all levels in telecomm:– Products (local phone company Vs other phones in

market such as BO; USB devices )

– Companies (IBM and Apple for PC or notebooks)

– Technologies (fixed line vs Bluetooth or wireless)

• How to connect them together?

(to p29)

Page 29: Lecture 01

29

Network Architecture

• A reference model that describes the layers of hardware and software necessary to transmit data between two points or for multiple devices / applications to interoperate

• Reference models are necessary to increase likelihood that different components from different manufacturers will converse

• Two models to learn: OSI model and TCP/IP protocol suite (to p30)

Page 30: Lecture 01

30

Standard models

• OSI– Compatibility

• TCP/IP

• Others

• Mobile network

• Concept of logical and physical connections in action

(to p31)

(to p48)

(to p49)

(to p51)

(to p52)

(to p60)

Page 31: Lecture 01

31

OSI– a worldwide organization known as ISOISO (International Standard Organization)

established rules and standards to oversee all these issues for vendors whose wish to develop their products

– In 1978, ISO proposed a telecomm architecture called:

– Open System Interconnection (OSI)

– The ISO-OSI model

– the purpose of this model is to allow information/data interchange between different brands of devices

– provides a basis for interconnecting dissimilar system/devices

– How it works

(to p32)

Page 32: Lecture 01

32

ISO/OSI Model (cont.)

• OSI uses an architecture of layer approach (a total of 7 layers) to represent the components of the total process of communication

• (See Figure 3.2, p91)

(to p32)

Page 33: Lecture 01

33

(to p34)

(to p35)

(to p37)

(to p39)

(to p41)

(to p42)

(to p44)

(to p30)

Level 1: Physical connection

Levels 2-7: Logical connection (exist in the software only)

Semantic view of their functions (to p47)

Page 34: Lecture 01

34

Layer 1: Physical link control layer

• Layer 1: Physical link control layer– connectivity on physical linkage– allow bit streams from a device to flow onto the

network– defines the electrical standards and signaling,

that is how connections could be established and terminated

– the only layer in which data transmission between devices takes place (to p33)

Page 35: Lecture 01

35

Layer 2: Data link control layer

• Layer 2: Data link control layer– defines standards for structured data into

frames and sending frames across the network– it answers questions such as

• 1. Where a frame starts or ends

• 2. How errors are detected and corrected

• 3. How to handle polling and addressing

• 4. How machines are addressed

(to p36)

Page 36: Lecture 01

36

Layer 2: Data link control layer

• Layer 2 (cont.)– it requires to work closely to devices such as

modem/FEP – it controls the situation when data is received

from the circuit faster than the receiver can handle it (it will slow down the transmission until further notice … this process is known as pacing)

– note: IEEE fully subscribes to OIS architecture for the 802 standards for LANs

(to p33)

Page 37: Lecture 01

37

Layer 3: Network control layer

• Layer 3: Network control layer– primary functions are network addressing and

routing– generates acknowledgements that an entire

message has been received correctly– responsible to break down messages end from

layer 4 that suit for data transmission

(to p38)

Page 38: Lecture 01

38

Layer 3: Network control layer(cont.)

• Layer 3 (cont.)

– it decides which communication circuit to transmit data

– it assembles data from blocks of bits before passing them up the level 4

(to p33)

Page 39: Lecture 01

39

Layer 4: Transport control layer

• Layer 4: Transport control layer– selects the route (if more than one is availble) the

transmission will take between two devices– converts user addressing that is meaningful to

network software and hardware– controls the flow of messages so that it will not

over/under run of the speed of other devices– prevents the loss or duplication of entire

messages (Note: Layer 2 is for frames) (to p40)

Page 40: Lecture 01

40

Layer 4: Transport control layer (cont.)

• Layer 4 (cont.)

– multiplexing several streams of messages from higher levels onto one physical circuit and adding appropriate headers to messages to be transmitted to recipients

– eg. Operators sends computer down time to all users in one command

(to p33)

Page 41: Lecture 01

41

Layer 5: Session control layer

• Layer 5: Session control layer– temporary connection between

machines/programs for exchange of messages– maintains and breaks a session between two

systems/users– assign and control of priority to access and

passing message to the systems (such as icq icon)

(to p33)

Page 42: Lecture 01

42

Layer 6: Presentation layer

• Layer 6: Presentation layer– deals with the way data is formatted and

presented to the users at the terminal– performs constant format for data transmission

so that lower level would understand it– software perform data transformation to meet

users’ need (such as different font size, characters per line etc.)

(to p43)

Page 43: Lecture 01

43

Layer 6: Presentation layer (cont.)

• Layer 6 (cont.)

– perform code conversion, data compaction, and data encryption

– except data encryption, most aforementioned tasks are done by software in the host computer

(to p33)

Page 44: Lecture 01

44

Layer 7: Application or user layer

• Layer 7: Application or user layer– is the ultimate end or data transmitted within

the network– consists of application programs, and performs

the communicating commands such as data editing, file editing etc

– performs the following 6 major functions• 1. Common application service element (CASE),

that is define standard events such as logon, password id. (to p45)

Page 45: Lecture 01

45

Layer 7: Application or user layer(cont.)

• Layer 7 (cont.)

• 2. Job transfer and manipulation (JTM), defines standard to transfer batch jobs between devices

• 3. File transfer, access and management (FTAM), defines standard for transfer of files between systems

• 4. Message oriented interchange system (MOTIS), defines standard for interconnecting different system in the word

• 5Office document architecture/office document interchange facility (ODA/ODIF), provides

(to p46)

Page 46: Lecture 01

46

Layer 7: Application or user layer(cont.)

• Layer 7 (cont.)

• 5. (cont.) a standard to allow the transfer, edit and return of documents across system from multiple vendors

• 6.Virtual terminal services (VTS), defines the virtual terminal concept, including characters, graphics, image, colors etc

(to p33)

Page 47: Lecture 01

47(to p33)

Page 48: Lecture 01

48

Telecomm Arch. & Standards (cont.)

The following two giants’ machines can also be linked to the telecomm. standards of ISO/OSI:

1. IBM developed the SNA (Systems Network Architecture)

2. DEC developed the DNA (Digital Network Architecture)

(Note: many textbooks review these two architectures and we do not cover in this subject!)(Students who wish to gain a copy of these architectures can come to see me later!) (to p30)

Page 49: Lecture 01

49

Telecomm Arch. & Standards TCP/IP (cont.)

• TCP/IP (Transmission Control Protocol/Internet

Protocol),developed by USA Department of Defense, is also a commonly practiced now in industry– it consists of 5 (or 4) layers (namely, physical,

network access, Internet, transport and application) (to p50)

(to p30)

Page 50: Lecture 01

50

TCP/IPTCP/IPThe OSIThe OSIModelModel

• Provides communications services for end user applications

• Supports the accomplishment of telecommunications sessions

• Supports the organization and transfer of data between nodes in the network

• Provides appropriate routing by establishing connections among network links

• Supports error-free organization and transmission of data in the network

• Provides physical transmission of data on the telecommunications media in the network

PhysicalLayer

Data LinkLayer

ApplicationLayer

NetworkLayer

TransportLayer

PresentationLayer

SessionLayer

Application orProcess Layer

Host-to-Host Transport Layer

Internet Protocol (IP)

Network Interface

Physical Layer(to p30)

NetworkAccess

Alternative view of 4 layers (to p59)

Page 51: Lecture 01

51(to p30)

Page 52: Lecture 01

52

logical and physical connections

• A logical connection is one that exists only in the software, while a physical connection is one that exists in the hardware

• Note that in a network architecture, only the lowest layer contains the physical connection, while all higher layers contain logical connections

• Applied in OSI model (to p53)

Page 53: Lecture 01

53

Logical and Physical Connections (continued)

Physical connections in networks (to p54)

Page 54: Lecture 01

54

Network Connections in Action

How does it apply to TCP/IP? (to p55)

Page 55: Lecture 01

55

TCP/IP in action

Note: (to p56)

Page 56: Lecture 01

56

The TCP/IP Protocol Suite in Action

• Note the flow of data from user to Web browser and back

• At each layer, information is either added or removed, depending on whether the data is leaving or arriving at a workstation

• The adding of information over pre-existing information is termed encapsulation

Page 57: Lecture 01

57

Why?1) shrinking world by telecomm.

2) direct and indirect use on the job remotely- direct such as networking

- indirect such as Intranet, telecommute, m-commerce

3) widely use of IT at home such as home entertainment – itv, icable, www, internet, AI home appliances

4) new career in telecomm, e-com/business, telecomm management, and other technical jobs as reviewed in Figure 1-4 (to p58) (to p14)

Page 58: Lecture 01

58

FIGURE 1-4 A partial list of telecommunications career opportunities.

(to p57)

Product DesignersSystem AnalystsBusiness AnalystsE-/M- commerce OfficersNetwork ManagersCIO (Chief Information Officers)

Conventional

21st Century

Page 59: Lecture 01

59(to p50)

Page 60: Lecture 01

60

Mobile network

(to p50)

(to p30)

Transaction Comptabilities Application Part (TCAP)

Telephone User Part (TUP

Signaling Connection Control Part (SCCP 

Page 61: Lecture 01

61

Backbone network

(to p17)

Page 62: Lecture 01

62(to p23)

Page 63: Lecture 01

63(to p23)

Page 64: Lecture 01

64(to p23)