Networks
personal area network
A network designed for communication among devices for one person. E.g. Smartphone, to notebook, to tablet, can use Bluetooth and WIFI
metropolitan area network
A network designed to provide access to a larger geographical area like a city.
local area network
A network where the nodes are located in a small geographical area. E.g. Computer lab at school, restaurant, house Home Area Network (HAN) is a specific type of LAN at your home.
coaxial cable
A single copper wire surrounded by layers of plastic and copper mesh. Used to connect cable TV and cable modems
client/server network
Centrally administrated network Client makes request to the server for information and resources
coaxial cable
Co: Stands for together, coordination Axial: stands for axis All 4 cables share the same axis, all centered around the same point
firewalls
Even if you have only one computer that you can directly connect to the modem, it's still a good idea to have a router because it has a built in hardware firewall. The more ___ you have, the better.
peer to peer network
Every node can communicate directly with every other node. If a computer wants to print it communicates directly with the printer.
mesh topology
Every node is connected to every other node
topologies
Refer to the physical or logical arrangement of computers, cables, and other pieces of the network. Think of this like a floor plan. You want to arrange the equipment for optimal performance.
internet stopped working
Reset both the modem and the router by unplugging them from the power source, then wait 30-45 sec and plug them back in. You may also want to reset you computer.
benefits of networking
Sharing an internet connection among devices Can share resources like printers Can share files Can share software
wide area network
Spans a large physical distance. The internet is the largest WAN. It's a collection of LANs.
nodes
The following list of Network Architectures are defined by the distance between ___ Personal Area Network (PAN) Local Area Network (LAN) Home Area Network (HAN) Metropolitan Area Network (MAN) Wide Area Network (WAN)
bandwidth
The max speed that data can be transmitted between nodes in a network.
computer network
Two or more computers connected via software and hardware so they can communicate with each other. Each device (e.g. computer) connected to a network is called a node.
data collisions
can occur when two computers send out data on the same cable (the bus).
modem
transfers the data to your computer by either Connecting to it directly using USB or Ethernet, or Connecting to a router which will allow multiple computers to connect, and a non-wired Wi-Fi connection.
shielded
twisted pair cable: is less common, it has an insulating material around it that helps further resist the interference.
unshielded
twisted pair cable: is the dominate cable.
router
will take the connect given to it through the modem and split it such that multiple computers can connect.
throughput
Actual speed of data transmission that is achieved.
star topology
Advantages: Failure of one computer doesn't take down the whole network Easy to add nodes to this topology Performance is still good with lots of nodes The switch makes troubleshooting and repairs easier Disadvantage: If the switch fails, the system goes down Requires more cable, thus, can be more costly
bus topology
Advantages: Uses minimal amount of cable Installation is easy, reliable, and inexpensive Disadvantages: Breaks in cable can disable the network Large number of nodes decreases performance, as a lot of data being transmitted on one bus
ring topology
Advantages: Allocates access to network fairly Performance remains ok with lots of nodes No collisions Disadvantage: Adding/removing nodes disables the network Low Redundancy: Failure of one node brings down the network Problems in data transmission can be a hard to find Can take longer to send data if on wrong side of the ring Security: Everyone can see your message, better encrypt it!
mesh topology
Advantages: Data can be going between different nodes at the same time If a node goes down it doesn't destroy the network Disadvantage: Redundancy Cost of all the cables Setting up and maintaining is difficult
bus topology
All computers connected on a sequence on a single cable.
ring topology
Computers are connected along a ring.
modem
Converts the internet signal coming in from the cable into a signal that your computer can understand. And vice versa when you're sending data out.
twisted pair cable
Copper wires twisted around each other Used for telephones An unshielded twisted-pair (UTP) is used for DSL networking
twisted pair cable
Created in 1881 by Alexander Graham Bell Telephones have two wires, one for sending the signal and one for receiving it Telephone wires shared same route as power lines Experienced electromagnetic interference or crosstalk from the magnetic field, e.g. hearing other peoples conversations
cable internet
Data is transferred on the same line that your cable TV signals come in on.
megabits per second
Data transfer rates are traditionally measured in (mbps)
point-to-point
Data travels from one note to another Very simple Supports two nodes
node
Each device (e.g. computer) connected to a network is called a
connecting nodes
In wired networks different types of cables are used based on how close the nodes are. Three types of cables are: Twisted-pair cable Coaxial cable Fiber-optic cable
coaxial cable
More expensive. Here you have 4 layers for one wire, where as with the twisted pair you had two. And the pieces are more expensive. There is less interference here, where as with the twisted-pair when you use it over long distances the interference gets magnified. Invented by Oliver Heaviside in 1880 All the shields reduce signal leakage.
fiber optic cable
Most expensive, and most advanced Plastic or glass fibers that transmit data at extremely fast speeds. The glass will not produce or be altered by magnetic fields Can carry larger amounts of data over larger distances at higher speeds Used as the network backbone
star topology
Nodes all connect to a switch.
Internet Service Provider (ISP)
Organizations that provide companies or individuals with access to the internet. (CSI)
fiber optic cable
Producing glass as thin as hair, and to exact measurements is very costly More fragile since it's glass We are satisfied with what we have today
wifi
Radio internet waves are sent out through your wireless router. Your computer was an internet card, and it picks up the signal.
router
The modem will be connected to the router through Ethernet to a port that either says WAN (Wide Area Network) or Internet. Then your computers can directly connect with Ethernet wires or they can connect wirelessly as long as you have a wireless router.
twisted pair cable
They twisted the wires at each junction to resist the electro magnetic interference.
bus topology
This topology is less used now as it's not designed to easily support wireless Data Collisions can occur when two computers send out data on the same cable (the bus). Because of the setup Data Collisions are more common on Bus Topologies than others. To prevent data collisions an access method is established where the computer checks to see if data is being transmitted before it attempts to transmit.
ring topology
To avoid data collisions this topology uses a token. The token is passed around the ring until a computer takes hold of it. A computer can transmit data when it has the token, and will not give up the token until it is done transmitting.
star topology
To send data from one node to another, it will first go to the switch, and the switch will direct the data to the correct receiving node. To avoid data collisions it uses CSMA/CD (Carrier Sense Multiple Access with Collision Detection). Here the node listens to make sure no data is being sent before it sends data.
digital subscriber line
Uses regular copper phone lines to transfer digital data to and from the phone companies central office. (CSI) With this approach you can still use your phone at the same time as your internet because they use different frequencies.
wifi
is the standard transmission using radio waves to connect nodes Wirless networks typically have decreased throughput when compared to wired networks because: More interference from magnetic and electronics Other people can get on your connections Metal and buildings can decrease your signal
modem
modem connects to the wall for signal in and signal out. Typically, using your coaxial cable.
