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This document provides an overview of key concepts in computer networking and data communication. It defines what a computer network is as two or more computers connected by transmission media that allows users to communicate and share applications and data. The document outlines different types of networks including local area networks (LANs), metropolitan area networks (MANs), and wide area networks (WANs). It also discusses common network typologies like star, ring, and bus topologies as well as client-server and peer-to-peer network models.

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1 IST 220-002: Networking and Telecommunications Chapter 1: Introduction to Computer Networks & Data Communication Dr. Lee Giles 001 Thomas Building, School of IST Phone 865 7884 Email: giles@ist.psu.edu
2 Information Technology (IT)Information Technology (IT) CommunicationCommunication TechnologyTechnology ComputerComputer TechnologyTechnology To collect, store, process, search, retrieve, and present electronic information to meet the needs of various kinds of users, e.g., computer hardware & software, PDAs, printers, groupware, smart cards…. What is Information Technology (IT)? To deliver, disseminate, exchange, transmit, and receive electronic information in local, regional or global contexts, e.g., networks, fax machines, cell phones, email, satellites, GPS, Internet, telephony, ….
3 Computer Systems Redefined Computer systems used to be defined as: Computer systems are now redefined as: hardwarehardware networksnetworkssoftwaresoftwarehardwarehardware softwaresoftware+ + +
4 Information & Communication  Generation and transfer of information is critical to today’s businesses  Flow of information both mirror and shape organizational structures  Networks are the enabling technology for this process
5 The “Manager’s Dilemma”  Technology is necessary for competitiveness  Cost of technology has decreased  Reliance on technology has increased  Number of choices have increased  Choices are both more difficult and more important
6 What is Data Communication?  Communication of data between sources  Data formats – analog or digital or both  Data travels by a medium  Wires  Space
7 Essentials of Data Communication  Message  Sender  Receiver  Medium  Understandability  Error detection  Security
8 Types of Messages
9 Protocols  Enables communication – how we communicate (convention used for establishing transmission rules)  When  Where  How  What with  How much
10 Protocols
11 Important Dates in the History of Data Communications (1)  1837 – Invention of the telegraph  1876 – Invention of the telephone  1947 – Invention of the transistor (replaced vacuum tubes)  1948 – First commercial computer installed, the UNIVAC I  1958 – First U.S. Communications satellite sent into orbit  1959 – FCC approves private microwave communications networks  1964 – Packet switching network concept proposed by the Rand Corporation  1966 – IBM's binary synchronous (BISYNC or BSC) protocol announced  1969 – ARPANET, first packet switching network (later to become the Internet), begins operation
12 Important Dates in the History of Data Communications (2)  1972 – Ethernet local area network specifications formulated  1972 – IBM's Synchronous Data Link Control (SDLC) protocol announced  1974 – IBM announces its Systems Network Architecture (SNA)  1975 – Personal computers introduced, the Altaire 8800 replaced terminals in many cases  1981 – IBM PC introduced  1985 – Cellular radio telephones are introduced  1990 – World Wide Web is introduced  1993 – Web search engines introduced  1995 – The Internet grows to over four million host computers  1999 – The Internet grows to over ten million host computers
13 Data Communication Applications (1)  Batch - bi-directional transfers of large amounts of data in concentrated groups  Data Entry - Lengthy inputs with short responses  Distributed - data and/or processing is handled by more than one processing unit  Inquiry/Response - Small inputs of data that may result in large responses
14 Data Communication Applications (2)  Interactive - Short inputs and outputs. Real-time response with direct user interaction  Sensor-Based - Input derived from sensors instead of human operators  Combined - More than one of the above applications running at the same time
15 What is a Computer Network? Two or more computers or communications devices connected by transmission media and channels and guided by a set of rules for communication purposes that allow users to communicate with each other and share applications and data. Hardware: Computer Network card Routers Modem … Hardware: Computer Network card Routers Modem … Media: Cable Wire Microwave … Media: Cable Wire Microwave … Software: Network OS Utilities … Software: Network OS Utilities … Network Design: Logical layout Physical layout … Network Design: Logical layout Physical layout … Components of a Computer Network
16 Applications of a Computer Network  Mass transit  Interstate highways  24-hour bankers, grocery stores  Cable television  Pagers  Mobile telephones  Most businesses and schools  Retail outlets  …
17 Technologies •Ethernet •Token Ring •Transmission Control Protocol/Internet Protocol (TCP/IP) •Wireless Application Protocol (WAP) Network OS •Bus Topology •Ring Topology •Star Topology •Local Area Network (LAN) •Metropolitan Area Network (MAN) •Wide Area Network (WAN) •Client/Server •Peer-to-Peer Models Topologies Types Network Essentials
18 Network Technologies  Based on bus topology; but can be used in star topology;  Higher speed: first Fast Ethernet, then Gigabit Ethernet;  Most popular: inexpensive, easy to install and maintain. EthernetEthernet Token RingToken Ring TCP/IPTCP/IP WAPWAP  Based on a ring topology; but can use a star topology;  Token-passing scheme to prevent collision of data;  The second most widely-used protocol after Ethernet.  Based on client/server model of network computing;  Uses packet switching technique for data transmission;  Commonly used for Internet applications.  Uses client/server model of network computing;  Allows wireless devices to access the Internet and WWW;  Meets increasing demands for wireless Internet access.
19 The World of Connectivity Wired or wireless communications links offer several options for information and communications. Source: The McGraw-Hill Companies, Inc., 1999
20 Computer Network Configurations: Connections between Networks  Computer terminal to mainframe computer  Microcomputer to mainframe computer  Microcomputer to local area network  Microcomputer to Internet  Local area network to local area network Local area network to wide area network Sensor to local area network Satellite and microwave Wireless telephone
21 Computer Network Configurations: Computer Terminal to Mainframe Computer Used in many types of businesses for data entry and data retrieval. Usually involves a low-speed connection.
22
23 Computer Network Configurations: Microcomputer to Local Area Network Very common throughout business and academic environments. Typically a medium- to high-speed connection.
24
25 Computer Network Configurations: Microcomputer to Internet Very popular with home users. Typically a modem is used to connect user’s microcomputer to an Internet Service Provider. Newer technologies such as DSL and cable modems are replacing modems.
26
27 Computer Network Configurations: LAN to LAN Connections Found in businesses and schools that have two or more LANs and a need for them to intercommunicate. The bridge is a typical device used to interconnect LANs.
28 Data Communications and Computer Networks Chapter 1
29 Computer Network Configurations: LAN to WAN Connections One of the best ways to interconnect a user on a workstation to the Internet (a wide area network). A router is the typical device that performs LAN to WAN connections.
30
31 Computer Network Configurations: Sensor to LAN Connections Often found in industrial environments. Assembly lines and robotic controls depend heavily on sensor-based local area networks.
32
33 Computer Network Configurations: Satellite and Microwave Many types of applications including long distance telephone, television, radio, long- haul data transfers, and wireless data services. Typically expensive services but many companies offer competitive services and rates.
34
35 Computer Network Configurations: Wireless Telephone Quickly expanding market across the U.S. and world. First generation analog services and second generation PCS services available in most areas and under many types of plans. Third generation services beginning to appear in Europe and Asia.
36
Why Are Networks Important? BUSINESS ENTERPRISE •Traditional Data •Text •Images Information •Graphics •Voice •Video •Multi-media Applications •Functions •Organizational Processes •Personal Users •Enterprise •Organization •Department •Individual Network •LANs •Mans •WANs Internet •Wired •Wireless
38 Networks: Pros and Cons Resource sharing  Printers, CD-ROMs, computers Data and information sharing Communications Reduced Cost On-line services Groupware  Software that supports group efforts over a network Electronic data interchange Security risks increase with networks Complexity is associated with networks Investment is high and return on it may not happen Pros Cons
39 Key Issues of Networks Access to the Internet Network Access  Wired access  Cable modem  DSL  Wireless access  Wireless LAN  RosettaNet – XML based Network security  Goals and Measures  Firewalls
40 Why Use a Network?  Sharing of  Data, messages, graphics …  Applications …  Devices, e.g., hard drives, backups, printers, modems, fax machines …  Centralized administration  Installing and upgrading application software  Communication and collaboration  Teleconferences, group decision support systems
41 Class Discussion  If you could design your own home, what kinds of computer network or data communications labor-saving devices would you incorporate?  Using a laptop computer with a wireless connection into the company’s local area network, you download a Web page from the Internet. List all the different network configurations involved in this operation.
42 Language of Computer Networks  Important terms and concepts.
43 Components of a Network  Server  A computer that provides services to other networked computers  Client  A computer in a client/server relationship, e.g., a Web browser  Hardware/Software  Network card, router, modem, hub/NT operating systems, utilities …  Media  The way to connect computers on a network  Data  Files o be shared by network computers  Resources  Peripherals, e.g., printers, to be used by network computers
44 Media of Networking  Coax cable  Twisted pair cable  Fiber optic cable  Microwave  Communications satellite  Cellular phones
45 Networking Hardware Workstations Servers Bridges Routers Hubs and switches Nodes
46 Network Models Microcomputer users, or clients, share services of a centralized computer called a server. Computers share equally with one another without having to rely on a central server. Client/Server Model Peer-to-Peer Model
47 Client/Server A distinction exists between computers that make available network resources (servers) and those computers that use the resources (clients or workstations). Pros:  Very secure  Centralized servers easy to manage  Physically centralized  Secure OS  Better performance  Centralized backups  Reliability  Simple job to do plus built in redundancy Cons:  Require professional administration  More hardware intensive
48 Peer-to-Peer (p2p) Computers on the network communicate with each others as equals and each computer is responsible for making its own resources available to other computers on the network. Pros:  Uses less expensive computer networks  Easy to administer  No NOS (network operating system) required  More built-in redundancy  Shared resources – some machine will have what you need Cons:  Individual user performance easily affected  Not very secure  Tragedy of the commons – no guarantee others will administer their resources properly (almost guaranteed with over 10 machines)  Hard to back up.
49 Client/Server vs. Peer-to-Peer: Advantages and Disadvantages Advantages:  Very secure OS.  Better performance.  Centralized servers, easy to manage.  Centralized backups.  High reliability. Peer-to-Peer ModelClient/Server Model Disadvantages:  Expensive administration.  More hardware intensive. Advantages:  Uses less expensive networks.  Easy to administer.  Contain both network operating system and application software.  Ideal for small business and home users. Disadvantages:  Individual user performance easily affected.  Not very secure.  Hard to back up.
50 Networking Essentials  Computer Networks  A host computer connected with communication circuits and equipment to terminals  Two or more computers connected via a communication medium  Intranet  A private version of the Internet  Enterprise Network  Two or more LANs connected to each other, or one or more LANs connected to a WAN  File Server  A computer that contains files shared by PCs on a network
51 Categorization of Networks  By size:  Wide Area Network (WAN)  Metropolitan Area Network (MAN)  Local Area Networks (LAN)  By capability:  Client/server  Peer-to-peer
52 Three Major Types of Networks  Local Area Network (LAN)  Serves users within a confined geographical area (usually within a mile).  Metropolitan Area Network (MAN)  Covers a geographic area the size of a city or suburb. The purpose of a MAN is often to bypass local telephone companies when accessing long- distance service.  Wide Area Network (WAN)  Covers a wide geographical area, such as a state or a country. Examples: Tyment, Telenet, Uninet, and Accunet.
53 Interconnection between LANs and WANs
54 Characteristics Differentiate One Network from Another Topology : The geometric arrangement of devices on the network. For example, devices can be arranged in a ring or in a bus or in a star topology. Protocols : The rules and encoding specifications for sending data. The protocols also determine whether the network uses a peer-to-peer or client/server model. Media : Devices can be connected by twisted-pair wire, coaxial cables, or fiber optic cables.  Wireless networks are connected via radio waves. Medium Access Control: Scheme to allow sharing of the media.
55 Components of a Typical LAN Source: The McGraw-Hill Companies, Inc., 1999
56 Network Typologies: Star This arrangement connects all the network’s devices to a central host computer, through which all communications must pass. Source: The McGraw-Hill Companies, Inc., 1999
57 Network Typologies: Ring This arrangement connects the network’s devices in a closed loop. Source: The McGraw-Hill Companies, Inc., 1999
58 Network Typologies: Bus A single channel connects all communications devices. Source: The McGraw-Hill Companies, Inc., 1999
59 Networking and Telecommunications Networking - an interconnection of computers and computing equipment using either wires or radio waves over small or large geographic distances Telecommunications - study of telephones and the systems that transmit telephone signals Network management - design, installation, and support of a network and its hardware and software
60 Networking Aspects  Computer Networks  A host computer connected with communication circuits and equipment to terminals  Two or more computers connected via a communication medium  Intranet  A private version of the Internet  Enterprise Network  Two or more LANs connected to each other, or one or more LANs connected to a WAN  File Server  A computer that contains files shared by PCs on a network
61 Network Selection Criteria  Size of the organization  Level of required security  Level of available administrative support  Amount of network traffic  Needs of the network users  Budget for building the network
62 Requirements of a Network System (1)  Ideal system  Does what we want instantly when we want it with no errors or problems and only we know about it.  Performance  Consistency  Flexibility  Availability  Reliability  Recovery  Security
63 Requirements of a Network System (2)  Performance  Response time  Time for transmission  Time for data processing  Transaction Rate (throughput)  The amount of work performed by a system per unit of time
64 Requirements of a Network System (3) Consistency  Same thing all the time  Response time
65 Requirements of a Network System (4)  Flexibility  Growth and change available with minimum impact on users  Legacy systems  Standards help
66 Requirements of a Network System (5)  Availability  When needed  Where available  How available
67 Requirements of a Network System (6)  Reliability  Measure of system failure MTBF – mean time between failure  Fault-tolerance solution Design Duplication
68 Requirements of a Network System (7) Recovery  All systems fail  How long before startup?  What do we get when the system starts up again  Saved information
69 Requirements of a Network System (8)  Security  Who has access?  How good is the protection?  Privacy
70 Network Architecture Models A reference model that describes the layers of hardware and software necessary to transmit data between two points. Reference models are necessary to increase the likelihood that different components from different manufacturers will converse. There are two standard models that are important: The OSI Model, and the Internet Model.
71 Standards Standards are rules of operation that are followed by most or all vendors Standards allow hardware and software from different vendors to work together Competition among vendors brings lower prices and feature-rich products
72 Standards ISO - International Standards Organization: An organization that sets communication standards, also IEEE OSI - Open Systems Interconnection: A seven layer reference model for developing data communication systems Open Architecture - in which the network specifications are available to any company
73 OSI Layers of Communication
74 Application Layer  Where the application using the network resides. Common network applications include remote login, file transfer, e-mail, and web page browsing.  Functionality defined by user  Application dependent
75 Presentation Layer  Performs a series of miscellaneous functions necessary for presenting the data package properly to the sender or receiver  Format of the data  Encryption  Compression  Screen formatting
76 Session Layer  Establishes connection between applications  Enforces rules  Order  Pacing  Reestablish connection
77 Transport Layer  Provides an end-to-end, error-free network connection.  Makes sure the data arrives at the destination exactly as it left the source.  Makes sure all information is accounted for:  Missing information  Duplicated information
78 Network Layer  Responsible for creating maintaining and ending network connections.  Transfers a data packet from node to node within the network.  Message routing  Billing  Accounting
79 Data Link Layer  Responsible for taking the data and transforming it into a frame with header, control and address information.  Physical path communication  Error detection  Error correction  Resolve competing requests
80 Physical Layer  Handles the transmission of bits over a communications channel.  Includes:  Voltage levels  Electrical connections  Media choices  Adapters  Connectors  Modulation techniques
81
82 Layers in Internet Model vs. OSI Model  Interface layer - equivalent to the OSI’s physical and data link layers.  Network layer - roughly equivalent to the OSI’s network layer.  Transport layer - performs same function as OSI transport layer.  Application layer - equivalent to the OSI’s presentation and application layers.
83 The Internet Model vs. the OSI Model
84 Internet Model 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.
86 Logical and Physical Connections  A logical connection is one that exists only in the software  A physical connection is one that exists in the hardware.  In a network architecture model, only the lowest layer contains a physical connection, while all higher layers contain logical connections.
87 OSI Layers of Communication
88 Software Environment  Application Programs  Word, Excel, Access, Lotus 123, etc.  Operating System  Manages the resources of the computer. (E.G. Windows 98/NT, Linux)  Data Communication  Responsible for handling communication with remote devices  Transaction Control Process  Receives input and routes it to the proper application processes  Database Management System  Interface between the application programs and the data they need to use.  Transaction Processing  Responding to requests for processing activities. The requests are usually user initiated but may be made by other systems
89 IT Infrastructure
90 Class Discussion  How have you used a network today.  Discuss an example of a business that incorporates layers of management and show how the work progresses through the layers.  Are there any network configurations that have not been addressed in the chapter? What are their applications?  Are there any other examples in business where one particular technology or method has won out over the competition? What were the reasons that lead to this particular technology winning?
Joining Professional Associations Benefits can include: Connecting with people who have similar interests Providing new opportunities for learning Allowing access to specialized information Giving tangible assets such as free goods
Professional Association Sites TABLE 1-2 Web sites of networking organizations Circa 2000. Some do not exist today!

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niceData com.

  • 1.
    1 IST 220-002: Networking andTelecommunications Chapter 1: Introduction to Computer Networks & Data Communication Dr. Lee Giles 001 Thomas Building, School of IST Phone 865 7884 Email: giles@ist.psu.edu
  • 2.
    2 Information Technology (IT)InformationTechnology (IT) CommunicationCommunication TechnologyTechnology ComputerComputer TechnologyTechnology To collect, store, process, search, retrieve, and present electronic information to meet the needs of various kinds of users, e.g., computer hardware & software, PDAs, printers, groupware, smart cards…. What is Information Technology (IT)? To deliver, disseminate, exchange, transmit, and receive electronic information in local, regional or global contexts, e.g., networks, fax machines, cell phones, email, satellites, GPS, Internet, telephony, ….
  • 3.
    3 Computer Systems Redefined Computersystems used to be defined as: Computer systems are now redefined as: hardwarehardware networksnetworkssoftwaresoftwarehardwarehardware softwaresoftware+ + +
  • 4.
    4 Information & Communication Generation and transfer of information is critical to today’s businesses  Flow of information both mirror and shape organizational structures  Networks are the enabling technology for this process
  • 5.
    5 The “Manager’s Dilemma” Technology is necessary for competitiveness  Cost of technology has decreased  Reliance on technology has increased  Number of choices have increased  Choices are both more difficult and more important
  • 6.
    6 What is DataCommunication?  Communication of data between sources  Data formats – analog or digital or both  Data travels by a medium  Wires  Space
  • 7.
    7 Essentials of DataCommunication  Message  Sender  Receiver  Medium  Understandability  Error detection  Security
  • 8.
  • 9.
    9 Protocols  Enables communication– how we communicate (convention used for establishing transmission rules)  When  Where  How  What with  How much
  • 10.
  • 11.
    11 Important Dates inthe History of Data Communications (1)  1837 – Invention of the telegraph  1876 – Invention of the telephone  1947 – Invention of the transistor (replaced vacuum tubes)  1948 – First commercial computer installed, the UNIVAC I  1958 – First U.S. Communications satellite sent into orbit  1959 – FCC approves private microwave communications networks  1964 – Packet switching network concept proposed by the Rand Corporation  1966 – IBM's binary synchronous (BISYNC or BSC) protocol announced  1969 – ARPANET, first packet switching network (later to become the Internet), begins operation
  • 12.
    12 Important Dates inthe History of Data Communications (2)  1972 – Ethernet local area network specifications formulated  1972 – IBM's Synchronous Data Link Control (SDLC) protocol announced  1974 – IBM announces its Systems Network Architecture (SNA)  1975 – Personal computers introduced, the Altaire 8800 replaced terminals in many cases  1981 – IBM PC introduced  1985 – Cellular radio telephones are introduced  1990 – World Wide Web is introduced  1993 – Web search engines introduced  1995 – The Internet grows to over four million host computers  1999 – The Internet grows to over ten million host computers
  • 13.
    13 Data Communication Applications(1)  Batch - bi-directional transfers of large amounts of data in concentrated groups  Data Entry - Lengthy inputs with short responses  Distributed - data and/or processing is handled by more than one processing unit  Inquiry/Response - Small inputs of data that may result in large responses
  • 14.
    14 Data Communication Applications(2)  Interactive - Short inputs and outputs. Real-time response with direct user interaction  Sensor-Based - Input derived from sensors instead of human operators  Combined - More than one of the above applications running at the same time
  • 15.
    15 What is aComputer Network? Two or more computers or communications devices connected by transmission media and channels and guided by a set of rules for communication purposes that allow users to communicate with each other and share applications and data. Hardware: Computer Network card Routers Modem … Hardware: Computer Network card Routers Modem … Media: Cable Wire Microwave … Media: Cable Wire Microwave … Software: Network OS Utilities … Software: Network OS Utilities … Network Design: Logical layout Physical layout … Network Design: Logical layout Physical layout … Components of a Computer Network
  • 16.
    16 Applications of aComputer Network  Mass transit  Interstate highways  24-hour bankers, grocery stores  Cable television  Pagers  Mobile telephones  Most businesses and schools  Retail outlets  …
  • 17.
    17 Technologies •Ethernet •Token Ring •Transmission Control Protocol/Internet Protocol(TCP/IP) •Wireless Application Protocol (WAP) Network OS •Bus Topology •Ring Topology •Star Topology •Local Area Network (LAN) •Metropolitan Area Network (MAN) •Wide Area Network (WAN) •Client/Server •Peer-to-Peer Models Topologies Types Network Essentials
  • 18.
    18 Network Technologies  Basedon bus topology; but can be used in star topology;  Higher speed: first Fast Ethernet, then Gigabit Ethernet;  Most popular: inexpensive, easy to install and maintain. EthernetEthernet Token RingToken Ring TCP/IPTCP/IP WAPWAP  Based on a ring topology; but can use a star topology;  Token-passing scheme to prevent collision of data;  The second most widely-used protocol after Ethernet.  Based on client/server model of network computing;  Uses packet switching technique for data transmission;  Commonly used for Internet applications.  Uses client/server model of network computing;  Allows wireless devices to access the Internet and WWW;  Meets increasing demands for wireless Internet access.
  • 19.
    19 The World ofConnectivity Wired or wireless communications links offer several options for information and communications. Source: The McGraw-Hill Companies, Inc., 1999
  • 20.
    20 Computer Network Configurations: Connectionsbetween Networks  Computer terminal to mainframe computer  Microcomputer to mainframe computer  Microcomputer to local area network  Microcomputer to Internet  Local area network to local area network Local area network to wide area network Sensor to local area network Satellite and microwave Wireless telephone
  • 21.
    21 Computer Network Configurations: ComputerTerminal to Mainframe Computer Used in many types of businesses for data entry and data retrieval. Usually involves a low-speed connection.
  • 22.
  • 23.
    23 Computer Network Configurations: Microcomputerto Local Area Network Very common throughout business and academic environments. Typically a medium- to high-speed connection.
  • 24.
  • 25.
    25 Computer Network Configurations: Microcomputerto Internet Very popular with home users. Typically a modem is used to connect user’s microcomputer to an Internet Service Provider. Newer technologies such as DSL and cable modems are replacing modems.
  • 26.
  • 27.
    27 Computer Network Configurations: LANto LAN Connections Found in businesses and schools that have two or more LANs and a need for them to intercommunicate. The bridge is a typical device used to interconnect LANs.
  • 28.
    28 Data Communications andComputer Networks Chapter 1
  • 29.
    29 Computer Network Configurations: LANto WAN Connections One of the best ways to interconnect a user on a workstation to the Internet (a wide area network). A router is the typical device that performs LAN to WAN connections.
  • 30.
  • 31.
    31 Computer Network Configurations: Sensorto LAN Connections Often found in industrial environments. Assembly lines and robotic controls depend heavily on sensor-based local area networks.
  • 32.
  • 33.
    33 Computer Network Configurations: Satelliteand Microwave Many types of applications including long distance telephone, television, radio, long- haul data transfers, and wireless data services. Typically expensive services but many companies offer competitive services and rates.
  • 34.
  • 35.
    35 Computer Network Configurations: WirelessTelephone Quickly expanding market across the U.S. and world. First generation analog services and second generation PCS services available in most areas and under many types of plans. Third generation services beginning to appear in Europe and Asia.
  • 36.
  • 37.
    Why Are NetworksImportant? BUSINESS ENTERPRISE •Traditional Data •Text •Images Information •Graphics •Voice •Video •Multi-media Applications •Functions •Organizational Processes •Personal Users •Enterprise •Organization •Department •Individual Network •LANs •Mans •WANs Internet •Wired •Wireless
  • 38.
    38 Networks: Pros andCons Resource sharing  Printers, CD-ROMs, computers Data and information sharing Communications Reduced Cost On-line services Groupware  Software that supports group efforts over a network Electronic data interchange Security risks increase with networks Complexity is associated with networks Investment is high and return on it may not happen Pros Cons
  • 39.
    39 Key Issues ofNetworks Access to the Internet Network Access  Wired access  Cable modem  DSL  Wireless access  Wireless LAN  RosettaNet – XML based Network security  Goals and Measures  Firewalls
  • 40.
    40 Why Use aNetwork?  Sharing of  Data, messages, graphics …  Applications …  Devices, e.g., hard drives, backups, printers, modems, fax machines …  Centralized administration  Installing and upgrading application software  Communication and collaboration  Teleconferences, group decision support systems
  • 41.
    41 Class Discussion  Ifyou could design your own home, what kinds of computer network or data communications labor-saving devices would you incorporate?  Using a laptop computer with a wireless connection into the company’s local area network, you download a Web page from the Internet. List all the different network configurations involved in this operation.
  • 42.
    42 Language of ComputerNetworks  Important terms and concepts.
  • 43.
    43 Components of aNetwork  Server  A computer that provides services to other networked computers  Client  A computer in a client/server relationship, e.g., a Web browser  Hardware/Software  Network card, router, modem, hub/NT operating systems, utilities …  Media  The way to connect computers on a network  Data  Files o be shared by network computers  Resources  Peripherals, e.g., printers, to be used by network computers
  • 44.
    44 Media of Networking Coax cable  Twisted pair cable  Fiber optic cable  Microwave  Communications satellite  Cellular phones
  • 45.
  • 46.
    46 Network Models Microcomputer users,or clients, share services of a centralized computer called a server. Computers share equally with one another without having to rely on a central server. Client/Server Model Peer-to-Peer Model
  • 47.
    47 Client/Server A distinction existsbetween computers that make available network resources (servers) and those computers that use the resources (clients or workstations). Pros:  Very secure  Centralized servers easy to manage  Physically centralized  Secure OS  Better performance  Centralized backups  Reliability  Simple job to do plus built in redundancy Cons:  Require professional administration  More hardware intensive
  • 48.
    48 Peer-to-Peer (p2p) Computers onthe network communicate with each others as equals and each computer is responsible for making its own resources available to other computers on the network. Pros:  Uses less expensive computer networks  Easy to administer  No NOS (network operating system) required  More built-in redundancy  Shared resources – some machine will have what you need Cons:  Individual user performance easily affected  Not very secure  Tragedy of the commons – no guarantee others will administer their resources properly (almost guaranteed with over 10 machines)  Hard to back up.
  • 49.
    49 Client/Server vs. Peer-to-Peer: Advantagesand Disadvantages Advantages:  Very secure OS.  Better performance.  Centralized servers, easy to manage.  Centralized backups.  High reliability. Peer-to-Peer ModelClient/Server Model Disadvantages:  Expensive administration.  More hardware intensive. Advantages:  Uses less expensive networks.  Easy to administer.  Contain both network operating system and application software.  Ideal for small business and home users. Disadvantages:  Individual user performance easily affected.  Not very secure.  Hard to back up.
  • 50.
    50 Networking Essentials  ComputerNetworks  A host computer connected with communication circuits and equipment to terminals  Two or more computers connected via a communication medium  Intranet  A private version of the Internet  Enterprise Network  Two or more LANs connected to each other, or one or more LANs connected to a WAN  File Server  A computer that contains files shared by PCs on a network
  • 51.
    51 Categorization of Networks By size:  Wide Area Network (WAN)  Metropolitan Area Network (MAN)  Local Area Networks (LAN)  By capability:  Client/server  Peer-to-peer
  • 52.
    52 Three Major Typesof Networks  Local Area Network (LAN)  Serves users within a confined geographical area (usually within a mile).  Metropolitan Area Network (MAN)  Covers a geographic area the size of a city or suburb. The purpose of a MAN is often to bypass local telephone companies when accessing long- distance service.  Wide Area Network (WAN)  Covers a wide geographical area, such as a state or a country. Examples: Tyment, Telenet, Uninet, and Accunet.
  • 53.
  • 54.
    54 Characteristics Differentiate One Networkfrom Another Topology : The geometric arrangement of devices on the network. For example, devices can be arranged in a ring or in a bus or in a star topology. Protocols : The rules and encoding specifications for sending data. The protocols also determine whether the network uses a peer-to-peer or client/server model. Media : Devices can be connected by twisted-pair wire, coaxial cables, or fiber optic cables.  Wireless networks are connected via radio waves. Medium Access Control: Scheme to allow sharing of the media.
  • 55.
    55 Components of aTypical LAN Source: The McGraw-Hill Companies, Inc., 1999
  • 56.
    56 Network Typologies: Star Thisarrangement connects all the network’s devices to a central host computer, through which all communications must pass. Source: The McGraw-Hill Companies, Inc., 1999
  • 57.
    57 Network Typologies: Ring Thisarrangement connects the network’s devices in a closed loop. Source: The McGraw-Hill Companies, Inc., 1999
  • 58.
    58 Network Typologies: Bus Asingle channel connects all communications devices. Source: The McGraw-Hill Companies, Inc., 1999
  • 59.
    59 Networking and Telecommunications Networking- an interconnection of computers and computing equipment using either wires or radio waves over small or large geographic distances Telecommunications - study of telephones and the systems that transmit telephone signals Network management - design, installation, and support of a network and its hardware and software
  • 60.
    60 Networking Aspects  ComputerNetworks  A host computer connected with communication circuits and equipment to terminals  Two or more computers connected via a communication medium  Intranet  A private version of the Internet  Enterprise Network  Two or more LANs connected to each other, or one or more LANs connected to a WAN  File Server  A computer that contains files shared by PCs on a network
  • 61.
    61 Network Selection Criteria Size of the organization  Level of required security  Level of available administrative support  Amount of network traffic  Needs of the network users  Budget for building the network
  • 62.
    62 Requirements of aNetwork System (1)  Ideal system  Does what we want instantly when we want it with no errors or problems and only we know about it.  Performance  Consistency  Flexibility  Availability  Reliability  Recovery  Security
  • 63.
    63 Requirements of aNetwork System (2)  Performance  Response time  Time for transmission  Time for data processing  Transaction Rate (throughput)  The amount of work performed by a system per unit of time
  • 64.
    64 Requirements of aNetwork System (3) Consistency  Same thing all the time  Response time
  • 65.
    65 Requirements of aNetwork System (4)  Flexibility  Growth and change available with minimum impact on users  Legacy systems  Standards help
  • 66.
    66 Requirements of aNetwork System (5)  Availability  When needed  Where available  How available
  • 67.
    67 Requirements of aNetwork System (6)  Reliability  Measure of system failure MTBF – mean time between failure  Fault-tolerance solution Design Duplication
  • 68.
    68 Requirements of aNetwork System (7) Recovery  All systems fail  How long before startup?  What do we get when the system starts up again  Saved information
  • 69.
    69 Requirements of aNetwork System (8)  Security  Who has access?  How good is the protection?  Privacy
  • 70.
    70 Network Architecture Models Areference model that describes the layers of hardware and software necessary to transmit data between two points. Reference models are necessary to increase the likelihood that different components from different manufacturers will converse. There are two standard models that are important: The OSI Model, and the Internet Model.
  • 71.
    71 Standards Standards are rulesof operation that are followed by most or all vendors Standards allow hardware and software from different vendors to work together Competition among vendors brings lower prices and feature-rich products
  • 72.
    72 Standards ISO - InternationalStandards Organization: An organization that sets communication standards, also IEEE OSI - Open Systems Interconnection: A seven layer reference model for developing data communication systems Open Architecture - in which the network specifications are available to any company
  • 73.
    73 OSI Layers ofCommunication
  • 74.
    74 Application Layer  Wherethe application using the network resides. Common network applications include remote login, file transfer, e-mail, and web page browsing.  Functionality defined by user  Application dependent
  • 75.
    75 Presentation Layer  Performsa series of miscellaneous functions necessary for presenting the data package properly to the sender or receiver  Format of the data  Encryption  Compression  Screen formatting
  • 76.
    76 Session Layer  Establishesconnection between applications  Enforces rules  Order  Pacing  Reestablish connection
  • 77.
    77 Transport Layer  Providesan end-to-end, error-free network connection.  Makes sure the data arrives at the destination exactly as it left the source.  Makes sure all information is accounted for:  Missing information  Duplicated information
  • 78.
    78 Network Layer  Responsiblefor creating maintaining and ending network connections.  Transfers a data packet from node to node within the network.  Message routing  Billing  Accounting
  • 79.
    79 Data Link Layer Responsible for taking the data and transforming it into a frame with header, control and address information.  Physical path communication  Error detection  Error correction  Resolve competing requests
  • 80.
    80 Physical Layer  Handlesthe transmission of bits over a communications channel.  Includes:  Voltage levels  Electrical connections  Media choices  Adapters  Connectors  Modulation techniques
  • 81.
  • 82.
    82 Layers in InternetModel vs. OSI Model  Interface layer - equivalent to the OSI’s physical and data link layers.  Network layer - roughly equivalent to the OSI’s network layer.  Transport layer - performs same function as OSI transport layer.  Application layer - equivalent to the OSI’s presentation and application layers.
  • 83.
    83 The Internet Modelvs. the OSI Model
  • 84.
    84 Internet Model inAction  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.
  • 85.
    86 Logical and PhysicalConnections  A logical connection is one that exists only in the software  A physical connection is one that exists in the hardware.  In a network architecture model, only the lowest layer contains a physical connection, while all higher layers contain logical connections.
  • 86.
    87 OSI Layers ofCommunication
  • 87.
    88 Software Environment  ApplicationPrograms  Word, Excel, Access, Lotus 123, etc.  Operating System  Manages the resources of the computer. (E.G. Windows 98/NT, Linux)  Data Communication  Responsible for handling communication with remote devices  Transaction Control Process  Receives input and routes it to the proper application processes  Database Management System  Interface between the application programs and the data they need to use.  Transaction Processing  Responding to requests for processing activities. The requests are usually user initiated but may be made by other systems
  • 88.
  • 89.
    90 Class Discussion  Howhave you used a network today.  Discuss an example of a business that incorporates layers of management and show how the work progresses through the layers.  Are there any network configurations that have not been addressed in the chapter? What are their applications?  Are there any other examples in business where one particular technology or method has won out over the competition? What were the reasons that lead to this particular technology winning?
  • 90.
    Joining Professional Associations Benefits caninclude: Connecting with people who have similar interests Providing new opportunities for learning Allowing access to specialized information Giving tangible assets such as free goods
  • 91.
    Professional Association Sites TABLE1-2 Web sites of networking organizations Circa 2000. Some do not exist today!

Editor's Notes

  • #3 This is the administrative arm the school that allows us to focus on our mandates and other opportunities. Fred Loomis is with us and I’d like to introduce him as the new director. Education and training solutions is really moving. We continue to plan and roll-out our offerings in the other two “divisions” Please note the Governor’s School and the Exec Ed functions (explain). We have a full-time grants writer, we are meeting with Exec Ed in Smeal to begin to design an executive program (1-2 weeks) and will begin planning mini-conferences, colloquia with our partners.
  • #16 This figure gives an overview of some of the groupware tools that are used in electronic communications. Groupware provides software tools for: 1. Electronic Communications Tools: - E-mail - Voice Mail - Faxing - Web Publishing - Other Communications Tools 2. Electronic Conferencing: - Data Conferencing - Voice Conferencing - Videoconferencing - Discussion Forums - Chat Systems - Electronic Meeting Systems 3. Electronic Collaborative Work Management: - Calendaring and Scheduling - Task and Project Management - Workflow Systems - Other Joint Work Tools - Knowledge Management