1. Networks

2. Network Classifications Acronyms, acronyms, and more acronyms What does PAN stand for? – Personal Area Network – interconnection of personal digital devices typically involve a mobile computer, cell phone, and/or a handheld computing device might be connected via USB or FireWire or bluetooth

3. Network Classifications Acronyms, acronyms, and more acronyms What does LAN stand for? – Local Area Network – usually connects computers in a single building examples: a networked office building or a school

4. Network Classifications Acronyms, acronyms, and more acronyms What does MAN stand for? – Metropolitan Area Network – public high-speed network with range of about 50 miles typically owned/operated by a single entity such as a government body or large corporation

5. Network Classifications Acronyms, acronyms, and more acronyms What does NAN stand for? – Neighborhood Area Network – connectivity spread over several buildings service area smaller than metropolitan, larger than local area networks

6. Network Classifications Acronyms, acronyms, and more acronyms What does WAN stand for? – Wide Area Network – consists of several smaller networks example: internet generally not owned by a single organization, but instead exist under collective or distributed ownership/management

7. 5 Chapter 5: LANs and WLANs 7 LAN Standards  LAN technologies are standardized by the Institute of Electrical and Electronics Engineers (IEEE) Project 802 – Local Network Standards –IEEE 802.3 –Ethernet

8. 5 Chapter 5: LANs and WLANs 8 Network Devices  Each connection point on a network is referred to as a node  To connect to a LAN, a computer requires network circuitry, sometimes referred to as a network interface card (NIC)  A networked peripheral, or network-enabled peripheral, is any device that contains network circuitry to directly connect to a network  A network device, or network appliance, is any electronic device that broadcasts network data, boosts signals, or routes data to its destination

9. Chapter 5: LANs and WLANs 9 NIC Intel EXPI9301CTBLK 10/ 100/ 1000Mbps PCI-Express Network Adapter 1 x RJ45

10. NIC VisionTek Bigfoot Killer 2100 Gaming Network Card Killer™ 2100 is up to 10x faster than other NICs

11. 5 Network Devices Chapter 5: LANs and WLANs 11

12. 5 Chapter 5: LANs and WLANs 12 Clients, Servers, and Peers  Network devices can function as clients or as servers –Application server –File server –Print server  Networks that include one or more servers can operate in client/server mode

13. 5 Chapter 5: LANs and WLANs 13 Physical Topology  The arrangement of devices in a network is referred to as its physical topology –Star –Ring –Bus –Mesh –Tree  Two similar networks can be connected by a device called a bridge  Gateway is a generic term for any device or software code used to join two networks

14. Star Topology One of the most common topologies Advantages: -prevents the passing of data packets through an excessive number of nodes -as the central hub is the bottleneck, increasing its capacity, or connecting additional devices to it, increases the size of the network very easily -easy to understand

15. Star Topology Disadvantages: -High dependence of the system on the functioning of the central hub -Failure of the central hub renders the network inoperable -Network size is limited by the number of connections that can be made to the hub

16. Ring Topology Topology in which each node connects to exactly two other nodes Advantage: -Generally performs better than a bus topology under heavy network load

17. Ring Topology Disadvantages: -One malfunctioning workstation can create problems for the entire network -Moves, adds and changes of devices can affect the network

18. Bus Topology Topology in which a set of clients are connected via a shared communication line Advantages: -Easy to implement -Cheaper than other topologies -Well-suited for temporary or small networks not requiring high speeds

19. Bus Topology Disadvantages: -If there is a problem with the cable the entire network breaks down -Performance degrades as additional computers are added or on heavy traffic -Commonly has a slower data transfer rate than other topologies

20. Mesh Topology Topology in which each computer and network devices are interconnected Advantage: -Possible to transmit data from one node to many other nodes at the same time

21. Mesh Topology Disadvantage: -Redundant connections can be expensive

22. Tree Topology Also known as a hierarchical network Advantage: -Point-to-point wiring for individual segments

23. Tree Topology Disadvantage: -More difficult to configure and wire than other topologies

24. How have networks changed our lives? For better? For worse?

25. 5 Chapter 5: LANs and WLANs 25 LAN Advantages  LANs enable people to work together  Sharing networked software can reduce costs  Sharing data on a LAN can increase productivity  Sharing networked hardware can reduce costs  Sharing networked hardware can provide access to a wide range of services and specialized peripheral devices

26. 5 Chapter 5: LANs and WLANs 26 LAN Challenges  Resources become unavailable when network malfunctions  Networks may be vulnerable to unauthorized access –More vulnerable than standalone computers  Wireless networks can be tapped from a “snooping” computer  Networked computers are susceptible to an increasing number of worms, Trojan horses, and blended threats

27. 5 Chapter 5: LANs and WLANs 27 LAN Parties  A LAN party is a gathering of people who connect their own computers to a LAN, usually to play multiplayer computer games –No special hardware usually is required –Game must have multiplayer capability

28. Name that topology! Tree

29. Name that topology! Ring

30. Name that topology! Bus

31. Name that topology! Mesh

32. Name that topology! Star

33. What does MAN stand for? Metropolitan Area Network

34. What does NAN stand for? Neighborhood Area Network

35. What does LAN stand for? Local Area Network

36. What does WAN stand for? Wide Area Network

37. What does PAN stand for? Personal Area Network