1 / 25

BUS1MIS Management Information Systems

BUS1MIS Management Information Systems. Semester 1, 2012. Week 5 Lecture 1. Networks, Telecommunications and Mobile Technologies. We are living in an increasingly wireless present …… …. and hurtling ever faster towards a wireless future.

ianna
Download Presentation

BUS1MIS Management Information Systems

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. BUS1MIS Management Information Systems Semester 1, 2012 Week 5 Lecture 1

  2. Networks, Telecommunications and Mobile Technologies We are living in an increasingly wireless present …… …. and hurtling ever faster towards a wireless future. The tipping point of ubiquitous, wireless, handheld, mobile computing is close. Baltzan et al. p. 295

  3. Networks, Telecommunications and Mobile Technologies Companies large and small from all over the world are using networked systems, including the Internet, and wireless technologies to gain competitive advantages. As a business student, you must understand the concepts of network architecture and mobile technology to be able to understand how IT can be used to improve business.

  4. Networks, Telecommunications and Mobile Technologies For example: Cirque du Soleil - available from the textbook (BDIS) web site) During the film list all usages of networks, telecommunications and wireless technologies.

  5. Networks, Telecommunications and Mobile Technologies Learning Objectives • Compare local area networks (LANs), wide area networks (WANs) and metropolitan networks (MANs) • List and describe the four components that differentiate networks • Compare the two types of network architectures • Explain topology and the different types found in networks • Describe TCP/IP along with its primary purpose • Identify the different media types found in networks Reference: Appendix C, on-line website for the text … and Chapter 7 text

  6. The `world’ Central processing unit (CPU) communication devices ROM RAM Input devices output devices Primary storage Hard drive Secondary storage

  7. Networks What is a computer network? `A computer network is a communications, data exchange, and resource-sharing system created by linking two or more computers and establishing standards, or protocols, so that they can work together’

  8. Networks Network types Local area networks (LANs) Wide area networks (WANs) Metropolitan area networks (MANs)

  9. Local area networks typically connect computers and other devices within a small geographical area e.g. a building such as a school, library, private home etc.

  10. Wide area networks typically span a larger geographic area, for example a city, a state or a country. Networks which service large organisations with multiple sites would be classified as a wide area network. The wide area network that spans the entire globe is the internet

  11. Networks that lie somewhere in between are sometimes referred to as metropolitan area networks. They typically span a city. For example - Swindon, UK

  12. Networks Network components (other than computers, printers, file servers ) • A protocol [a set of communication rules] • Network interface cards [a piece of hardware that can be plugged into a computer to allow it to communicate with other computers] • Cables [ the media which connects devices] • Hub (switch or router) [ a piece of hardware that manages the communications between devices --- the `traffic cop’] Network performance [see Baltzan et al. p 304 – 6] Bandwidth refers to the capacity of a network to transmit data i.e. the volume of data that can be transmitted per unit of time. Broadband refers to high speed internet connections transmitting data at speeds greater than 200 kilobytes per second (Kbps).

  13. Networks Broadband speeds The National Broadband Network is expected to deliver download speeds of 100Mbps. The 3G (mobile phone network) currently delivers 3.6Mbps Telstra’s 4G network opened in January 2012 2-40Mbps Telephone line based

  14. Networks How are networks differentiated? … in terms of the network architecture … in terms of the network topology … in terms of the network protocols … in terms of the network media

  15. Networks How are networks differentiated? Network architecture Client-server A central computer (a `server’) stores data and application files. Other computers in the network (the `clients’) can request applications and data files from the server. The software which manages all of this (i.e. steering information between devices, managing security and the users) is known as the network operating system (e.g. Novell Netware) See p.C.5 for the role of packet switching and the router

  16. Networks How are networks differentiated? Network architecture Peer-to-peer No file server … all computers in the network can share files and use connected devices For example, Napster and Kazaa (file sharing of music files across the internet)

  17. Networks How are networks differentiated? Network topology … `geometric’ shape • BUS topology • STAR topology • RING topology

  18. BUS – all devices connected to a central cable (called a bus). Inexpensive and suitable for small networks STAR – all devices connected to a central device (called a hub). Relatively easy to install and manage, however all data has to go through the hub (potential bottlenecks) RING – Devices connected to each in a closed loop (each device directly connected to exactly two others). This is an expensive option, offering high band width and networks that can span large distances.

  19. Networks How are networks differentiated? Network protocols When some data is sent over a network it is broken into packets of a set number of characters. A protocol is a standard specifying the format of the packets and rules to be followed during data transmission. Example of a data packet

  20. Networks How are networks differentiated? Network protocols Two common protocols … • Ethernet (Local Area network) • Transmission Control Protocol/Internet Protocol (TCP/IP) (Internet)

  21. Networks Ethernet: physical network interface technology for most LANs A firewall (hardware and/or software) protects a network form the outside world. It analyses data/information that is entering or leaving the network. It looks for `suspicious things’ such as files which contain viruses etc. See p. 306 -7 Baltzan et al. for a discussion of network security, including the use of passwords and data encryption

  22. Networks Transmission Control Protocol/Internet Protocol (TCP/IP) TCP provides the transport functions for data transmission across a network e.g. ensuring that amount of data received matches that sent IP acts as a `postmaster’ i.e. provides an addressing and routing mechanism for data transmission IPaddress – computers on the Internet have an IP address – 194.192.6.6 The world has recently run out of IP addresses. See Appendix C (p c.7 – c.9) for a more detailed description of each

  23. Networks An intranet is an internalised portion of the Internet, protected from outside access which allows an organisation to restrict access to application software and information to only its employees. Intranet (private) Internet (public) firewall organisation See p. 116 of Baltzan et al.

  24. Networks How are networks differentiated? Transmission Media • wire media (twisted pair, coaxial cable, fibre-optic cable) • wireless media

  25. Wireless Networks (WiFi) WiMAX (worldwide Interoperability for Microwave Access) is a telecommunications technology aimed at providing wireless data over long distances in a variety of ways, from point-to-point links to full mobile cellular type access Baltzan et al. p.324

More Related