export_week 13 chapter 12 networks and data communications

Question 1

,

data

Answer 1

messages to be shared between sender and receiver

Question 2

,

what does protocols establish ?

Answer 2

Protocols establish accurate and appropriate meaning to the

messages that are understood by both senders and receivers

Question 3

,

is the physical connection dependent of the physical connection ?

Answer 3

▪ Physical connection that is independent of the messaging

▪ message sharing “connection” between applications at the sender

and the receiver

▪ physical connection with signaling that represents the messages

being transported

Question 4

,

examples of the Physical connection

Answer 4

▪ Examples

▪ POTS - plain old telephone service

▪ Web servers and Web browsers

Question 5

,

HTTP Request and Response

Answer 5

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imagek0ehrx-14A5C8F0F660BC90423.png

Question 6

,

Model of a Communication

Channel

Answer 6

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imaged4mbrx-14A5C8FAB094DC62D62.png

Question 7

,

what are the limitations of communication tool

Answer 7

▪ Limitation as a communication tool is the varying

message length

▪ Long messages could tie up a communication channel indefinitely creating problems for other messages that share that channel

Question 8

,

what are the packets ?

Answer 8

• A group of related packets make up a single

message

▪ Consist of data encapsulated by the packet

header which contains information about the

packet

Question 9

,

what are the packets used ?

Answer 9

▪ Used to solve problems of channel availability and maximum utilization

▪ Equivalent to an envelope that contains pages of data

Question 10

,

what is the packet Header named ?

Answer 10

▪ Also known as the preamble

Question 11

,

what does the packet header contain?

Answer 11

▪ Contains

• Description of the packet
• Destination address of receiver
• Source address of sender
• Information about the data being sent

Question 12

,

Advantages of Packets?

Answer 12

1. ▪ Simplifies operations and increases communications efficiency
2. ▪ Reasonable unit for routing of data
3. ▪ Alternative to dedicating a channel for the entire length of the message
4. ▪ Packets from several sources can share a single channel
5. ▪ Each sender/receiver pair appears to have a channel to itself
6. ▪ Receiving computer can process an entire block of data instead of a character or byte at a time
7. ▪ Simplifies synchronization of the sending and receiving systems by providing clear start and stop point

Question 13

,

what is the communication channel ?

Answer 13

▪ The path for the message between two communicating nodes

▪ May include intermediate nodes that forward packets to the next node

▪ Interfaces at each end of the connection may be differen

Question 14

,

what is ▪ Links?

Answer 14

▪ A segment of a communication channel

Question 15

,

what is the bandwidth ?

Answer 15

▪ Bit rate of overall channel

Question 16

,

what is ▪ Medium parts ?

Answer 16

▪ Guided – communications limited to a specific path

▪ Unguided – communications not limited to a specific path

Question 17

,

A Multi-Link Channel

Answer 17

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/image7sz7qx-14A5C9702F52BAAF49D.png

Question 18

,

what are the ▪ Data transmission directionality?

Answer 18

▪ Simplex – messages are carried only in one direction

▪ Half-duplex – messages are carried in both directions but only one direction at a time

▪ Full duplex – messages are simultaneously carried in both directions

Question 19

,

what are the numbers of connections ?

Answer 19

▪ Number of connections

▪ Point-to-point

▪ Multipoint

Question 20

,

types of signaling ?

Answer 20

▪ Digital vs. Analog

Question 21

,

what are End node interfaces types ?

Answer 21

▪ Wired or wireless Ethernet

▪ Bluetooth, WiMax, DSL or cable link, modem, etc.

Question 22

,

what are the types of Packet Routing ?

Answer 22

1. Circuit switching
2. Virtual circuit
3. Packet switching (datagram switching )

Question 23

,

what are the circuit switching ?

Answer 23

▪ Circuit switching

▪ Dedicated channel between source and destination for duration of connection

Question 24

,

what are the ▪ Virtual circuit

Answer 24

Virtual circuit

▪ A channel path that is used to send

packets between two end nodes

▪ Intermediate nodes may be shared with

other channel paths

Question 25

,

what are the packet switching ?

Answer 25

▪ Packet switching (datagram switching)

▪ Each packet is routed from node to node independently based on various criteria

Question 26

,

End-to-end channel with many possible

paths through intermediate nodes diagram

Answer 26

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/selection_183-14A5C9FE5A17ACA9A06.png

Question 27

,

Virtual Circuits in a Network diagram

Answer 27

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/selection_184-14A5CA0907B479F38C0.png

Question 28

,

Connecting End

Points through Links

and Networks diagram

Answer 28

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/selection_185-14A5CA10D68611A3141.png

Question 29

,

what are routers ?

Answer 29

▪ Specialized devices used to interconnect network

and pass packets from one network to another

Question 30

,

what ARE the operations

Answer 30

When packet arrives at input port

Processor decides where packet is to be directed

A switch is set to direct the packet to the correct output

port

Question 31

,

what are getaways and what do they do ?

Answer 31

▪ Same as routers but connect dissimilar networks

together

▪ Convert packet headers for the dissimilar network

Question 32

,

what are the Communication Models

Answer 32

▪ TCP/IP

▪ OSI

Question 33

,

what are the network addressing

Answer 33

▪ Network Topology

Question 34

,

what are the types of networks ?

Answer 34

1. Local Area Networks
2. Backbone Networks
3. Metropolitan Area Networks
4. Wide Area Networks
5. Internet Backbones and the Internet
6. Piconets

Question 35

,

how is the communication model is implemented ?

Answer 35

▪ Implemented as a hierarchical protocol stack

▪ Each layer of the stack at the sender node contributes information that is used by the corresponding peer layer at the

receiver node

Question 36

,

why different protocols for ?

Answer 36

Different protocols for the different aspects of communication

Question 37

,

17 advantages of Separating tasks and including well defined interfaces between the tasks?

Answer 37

• Adds flexibility
• Simplifies design of protocols
• Permits modification or substitution of protocols without affecting unrelated tasks
• Permits a system to select only the protocols needed for a particular application

Question 38

,

18 TCP/IP?

Answer 38

Transmission Control Protocol/Internet Protocol

Question 39

,

what does the TCP and IP encapasses ?

Answer 39

The TCP/IP protocol suite encompasses an integrated suite of numerous protocols that work together and guide all aspects of communication.

Question 40

,

Operation of TCP/IP Model daigram

Answer 40

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imagepc57qx-14A5C6629A45FFCFD66.png

Question 41

,

Application Layer (Layer 5) what does do ?

Answer 41

▪ Layer where message is created

▪ Includes any application that provides software that

can communicate with the network layer

Question 42

,

from what sockets are Originated ?

Answer 42

Originated with BSD UNIX

Question 43

,

what does sockets provide ?

Answer 43

• Provide the interface between the application layer and transport layer
• Used by applications to i nitiate connections and to send messages through the network
• A means for adding new protocols and keeping the network facilities current in their offerings

Question 44

,

example for sockets ?

Answer 44

Example: SCSI over IP

Question 45

,

what does transport layer does ?

Answer 45

▪ Provides services that support reliable end-to-end

communications

▪ Generates the final address of the destination

▪ Responsible for all end-to-end communication

facilities

▪ Packetization of the message, breaking up of the

message into packets of reasonable size takes place

at this level

Question 46

,

where does the Packetization of the message, breaking up of the
message into packets of reasonable size takes place?

Answer 46

Transport Layer (Layer 4)

Question 47

,

where does the Generates the final address of the destination?

Answer 47

Transport Layer (Layer 4

Question 48

,

▪ Three different protocols of the Transport Layer (Layer 4)?

Answer 48

▪ TCP
▪ UDP

▪ SCTP

Question 49

,

advantages of the TCP? (Transmission Control Protocol)

Answer 49

▪ Reliable delivery service
▪ Sending and receiving TCP each create a socket

▪ Control packets are used to create a full duplex connection between the sockets

▪ A single TCP service can create multiple connections that operate simultaneously by creating additional sockets as needed

▪ Routing is the responsibility of the network layer (layer 3

Question 50

,

talk about the ▪ UDP (User Datagram Protocol)?

Answer 50

▪ Unreliable, connectionless service

▪ No acknowledgment of receipt by receiving node

▪ Example: streaming video

Question 51

,

example of the UDP ?

Answer 51

▪ Example: streaming video

Question 52

,

what is the SCTP ?

Answer 52

Similar to TCP but with improved fault tolerance and ability to

transport multiple messages through the same connection

Question 53

,

what is the Logical Connection View of TCP daigram ?

Answer 53

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imagete8erx-14A5C7417561761BC1D.png

Question 54

,

what is the Network layer called ?

Answer 54

▪ The TCP/IP network layer is also called the

internetworking layer or the IP layer

Question 55

,

what is the responsible for the network layer ?

Answer 55

Responsible for the addressing and routing of packets

to their proper and final destination

Question 56

,

traits of the network layers ?

Answer 56

▪ Unreliable, connectionless, packet switching service

• Does not guarantee delivery nor check for errors

Question 57

,

what are routers and getaways refereed to ?

Answer 57

Routers and gateways are sometimes referred to as
level 3 switches to indicate the level at which routing

takes place

Question 58

,

what does the network layer do during Communications within a local network?

Answer 58

• No routing is required because nodes are directly

addressable

▪ Physical addresses for corresponding IP addresses are looked up in a table

▪ IP appends a header with the physical address and passes the datagram to the data link layer (layer 2)

Question 59

,

what does the network layer do Communications sent outside of the local network?

Answer 59

▪ At each intermediate node, the network layer removes the current node address and determines the next node address

▪ The new address is added to the packet and passed to the data link layer (layer 2)

Question 60

,

what does the Data Link Layer (Layer 2) do ?

Answer 60

▪ Responsible for the reliable transmission and delivery

of packets between two adjacent nodes

Question 61

,

what are packets called in the data link layer ?

Answer 61

n Packets at this layer are called frames

Question 62

,

What are the 2 sub layers of the Data link layer?

Answer 62

1. software Logical Link Control (LLC) - establish control of logical links btwn local devices on network
2. hardware Media Access Control (MAC) - device use to control access to network medium

Question 63

,

traits of the Software logical link control sublayer?

Answer 63

• Error correction, flow control, retransmission, packet reconstruction and IP datagram/frame conversions
• Numbers frames and reorders received frames to recreate the original message
• Rarely used

Question 64

,

what are the traits of the Hardware medium-access control sublayer?

Answer 64

• Defines procedures for access the channel and detecting errors
• Responsible for services such as data encoding, collision handling, synchronization, and multiplexing

Question 65

,

what takes place at the physical layer ?

Answer 65

Layer at which communication actually takes place

consisting of a bare stream of bits

Question 66

,

where is the physical layer implemented ?

Answer 66

▪ Primarily implemented in hardware by a  network  
  interface controller (NIC)

Question 67

,

in the physical layer what does the Physical access protocol includes?

Answer 67

▪ Definition of the medium
▪ Signaling method, signal parameters, carrier frequencies, lengths of pulses, synchronization and timing issues

▪ Method used to physically connect the computer to the medium

Question 68

,

Passing a Message Through an

Intermediate Node diagram ?

Answer 68

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/image1n3irx-14A5C86D25F4E8764EC.png

Question 69

,

OSI Model what does it stand for ?

Answer 69

Open Systems Interconnection Reference Model was
created by the International Standards Organization

(ISO)

Question 70

,

is it important the OSI model ?

Answer 70

▪ Although a conceptually important model, OSI is not

widely accepted or used for actual communication

Question 71

,

how many layers the OSI consists of ?

Answer 71

▪ Contains seven layers instead of five

▪ The application layer in the TCP/IP model is

essentially represented by three layers in the OSI

model

▪ Application layer

▪ Presentation layer

▪ Session layer

Question 72

,

Comparison of OSI and TCP/IP diagram ?

Answer 72

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/image5xcbrx-14A5C8971A233C5B7A8.png

Question 73

,

what is OSI Presentation Layer Different protocols for the different aspects of communication

Answer 73

▪ Responsible for presenting data at the destination

with the same meaning and appearance as it would

have at the source

▪ Provides common data conversions and

transformations that allow systems with different

standards to communicate

Question 74

,

what does OSI Presentation Layer include ?

Answer 74

Includes services such as data compression and

restoration, encryption and decryption, data

reformatting, ASCII-Unicode conversion, etc.

Question 75

,

what does the OSI session layer establishes ?

Answer 75

▪ Establishes a dialogue between two cooperating applications or processes at the ends of the communication link

Question 76

,

what is OSI Session Layer ▪ Responsible for?

Answer 76

▪ Establishing the session between the applications

▪ Controlling the dialogue

▪ Terminating the session

Question 77

,

examples of the OSI session layer are ?

Answer 77

Examples

▪ Remote login

▪ Print spooling to remote printer

Question 78

,

TCP/IP Addressing (1)

what type of addresses used ?

Answer 78

▪ User friendly addresses

▪ URL – www.youtube.com

▪ Email – somebody@yahoo.com

▪ Printer name on the network

Question 79

,

what is the domain name ?

Answer 79

▪ Standard global domain name system provides

global scope for user friendly addresses

▪ Hierarchical system for name creation and

registration

▪ Tools for locating and identifying specific names

Question 80

,

traits of port addresses TCP/IP addressing ?

Answer 80

▪ Port Addresses (port numbers)

▪ Transport layer uses to identify the application that is to receive the message

Question 81

,

what is the length of the port addressed ?

Answer 81

▪ 16 bits in length

Question 82

,

example of the length of the port addresses ?

Answer 82

Example: port 80 is commonly used for Web services

▪ First 1024 numbers are called well-known ports because they are standard addresses specified for most common applications

Question 83

,

what is the defined port numbers are also available to ??

Answer 83

applications

Question 84

,

example of the ▪ Port Addresses (port numbers)

Answer 84

▪ For example, the following Web service uses the user-

defined port of 8080

http://www.somewhere.org:8080/hiddenServer/index.html

Question 85

,

daigram of the Well-Known Port Addresses

Answer 85

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imagerdyfrx-14A5CB2B5880C66AB04.png

Question 86

,

TCP/IP Addressing (3)▪ IP addresses ▪ IP addresses

traits of IPv4 ?

Answer 86

• 32-bit addresses arranged as 4 octets, delimited by dots
• Each octet is written as a decimal number between 0 and 255
• Example: 208.80.152.2 (Wikipedia’s IP address)

Question 87

,

traits of IPv6

Answer 87

• Intended to eventually supplant IPv4 to provide additional IP addresses
• 128-bit addresses arranged as 8 groups of four-digit hexadecimal
• numbers separated by colons
• Leading zeros and zero values in one or more consecutive groups may
• be eliminated
• Example: 6E:2A20::35C:66C0:0:5500 is the same as
• 006E:2A20:0000:0000:035C:66C0:0000:550

Question 88

,

TCP/IP Addressing (4)

what is ▪ Domain name translation

Answer 88

▪ Translate a user friendly address into an IP address and port address for the transport layer

▪ Utilizes a global domain name directory servic

Question 89

,

what does ▪ Address resolution protocol (network layer) do ?

Answer 89

▪ Translates IP addresses into physical addresses

Question 90

,

what is ▪ MAC (medium-access control) address

Answer 90

▪ Most common type of physical address

▪ Every manufactured device that may connect to a network anywhere

in the world is supplied with a permanent, unique MAC address

▪ Format consists of 48 bits arranged as 6 two-digit hexadecimal numbers separated by colons

▪ Example: 00:C0:9F:6C:F9:D0

Question 91

,

diagram of the
Different Addresses Used in a

Network

Answer 91

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imagev46erx-14A5CB78A12613DFA9F.png

Question 92

,

what is Network Topology

Answer 92

Fundamental layout of a network

Question 93

,

what does Network Topology describe ?

Answer 93

▪ Describes the path or paths between any two points in the

network

▪ Affects availability, speed and traffic congestion of the networ

Question 94

,

types of Network Topology?

Answer 94

▪ Logical topology – operational relationship between the various

network components

▪ Physical topology – actual layout of the network wiring

Question 95

,

Automobile Traffic Scenarios

Answer 95

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/image07jyqx-14A5CB9640831CF86F6.png

Question 96

,

Four Network Topologies

Answer 96

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imagel4lirx-14A5CBA0E840A72887B.png

Question 97

,

what is Mesh Topology

Answer 97

Multiple paths between end nodes

Question 98

,

what are the limitations of the mesh topology ?

Answer 98

▪ Failure of an individual intermediate node will slow but not stop the network as long as an alternative path is available

Question 99

,

▪ Large networks that use switches and routers are typically

Answer 99

partial mesh networks

Question 100

,

Full mesh network

Answer 100

1. Direct point-to-point channel connecting every pair of nodes
2. Impractical due to the large number of connections needed
3. Number of connections = nodes x (nodes – 1) / 2
4. 500 computer nodes would require 125,000 interconnecting cables

Question 101

,

Five-Node Full Mesh Network diagram ?

Answer 101

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imageaw4hrx-14A5CBE06FF76B1A028.png

Question 102

,

how is the lay of the bus topology ?

Answer 102

▪ To communicate, each node “broadcasts” a message that

travels along the bus

▪ Every node on the bus receives the message but it is ignored by all nodes except the one whose node matches the delivery address in the message

Question 103

,

what does the transmission of the bus Topology ?

Answer 103

▪ Transmission from any stations travels entire medium (both

directions)

▪ Termination required at ends of bus to prevent the signal from

echoing

Question 104

,

can Branches be added to a bus?

Answer 104

Branches can be added to a bus, expanding it into a tree but

messages are still broadcast throughout the entire tree

Question 105

,

how to implement bus network?

Answer 105

▪ Only requires a single pair of wires from one end of the network space to the other

Question 106

,

advantage of the bus network ?

Answer 106

▪ Easiest to wire of the network topologies

▪ Low cost

Question 107

,

issues of the bus network?

Answer 107

▪ Traffic congestion is a major issue

Question 108

,

why bus network Rarely used in designs of new networks

except for wireless networks?

Answer 108

▪ Because of the unguided nature of radio waves, wireless networks require some form of bus topology

Question 109

,

when does the star network used?

Answer 109

▪ Primarily used for local area networks and sometimes

used to connect satellite offices to a central office

Question 110

,

how is the nodes connected in the star topology?

Answer 110

▪ All nodes are connected point-to-point to a central

device

▪ Nodes communicate through the central device

▪ Switching in the central device connects pairs of

nodes together to allow them to communicate directly

Question 111

,

what does the Central device of the star topology?

Answer 111

Central device can steer data from one node to

another as required

Question 112

,

is it possible to switch multiple pairs

Answer 112

▪ Most modern switches allow multiple pairs to

communicate simultaneously

Question 113

,

limitations of the star topology ?

Answer 113

▪ Failure of central device causes entire network to go

down

Question 114

,

how Ring Topology works

Answer 114

▪ Point-to-point connection from each node to the next

▪ Last node is connected back to the first to form a closed ring

▪ Each node retransmits the signal that it receives from the

previous node in the ring

▪ Packets are placed on the loop at a node, and travel from node

to node until the desired node is reached

Question 115

,

Although the ring is inherently unidirectional, it is possible to

build a

Answer 115

bidirectional ring network

Question 116

,

is it popular in the past Ring topology?

Answer 116

▪ Popular in the past because they provided a controlled way in which to guarantee network performance

▪ Legacy token-ring local area networks

▪ Used in some FDDI fiber optic backbone and metropolitan area networks

Question 117

,

what is Local Area Networks (LAN)?

Answer 117

▪ A network that connections computers and other supporting

devices over a relatively small localized area

Question 118

,

what is the size of Local Area Networks (LAN)?

Answer 118

▪ Typically ranging in size from a single room to multiple buildings

in close range of each other

▪ Most of the computers are personal computers or workstations

Question 119

,

is Routers and perhaps gateways are used to connect the LAN

Answer 119

▪ Routers and perhaps gateways are used to connect the LAN to
other networks

Question 120

,

how to minimize extraneous traffic on the network?

Answer 120

Creating separate LANs for different departments or for different business functions is done to minimize extraneous traffic on the network

Question 121

,

what protocol LAN is base on?

Answer 121

Most modern LANs are based on one of the Ethernet protocol

standards

Question 122

,

Common Ethernet Standards diagram

Answer 122

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imageoylhrx-14A5D0DDE8D65A8F480.png

Question 123

,

what is the Ethernet Hubs based on ?

Answer 123

Based on bus topology

Question 124

,

how to to simplify

wiring and maintenance in Ethernet Hubs?

Answer 124

▪ A passive central connection device used to simplify

wiring and maintenance

Question 125

,

what does the physical layer does in the Ethernet Hubs ?

Answer 125

▪ Physical layer device where all of the connections are

tied together inside the hub

Question 126

,

how the signaling of the Ethernet Hubs ?

Answer 126

▪ Signals are broadcast to every device connected to

the hub

Question 127

,

what are MACP in the Ethernet Hubs ?

Answer 127

Uses the CSMA/CD medium access control protocol

Question 128

,

why is the hubs in the Ethernet is declining

Answer 128

Use of hubs is declining because switches often

provide better performance

Question 129

,

Ethernet Switches what topology it uses ?

Answer 129

Logically a star topology, not a bus

topology

Question 130

,

the ability of the Ethernet switches ?

Answer 130

▪ Able to set up a direction connection

between any two nodes

▪ Multiple pairs of nodes can

communicate at the full bandwidth

Question 131

,

what method is Ethernet Switches ?

Answer 131

Prevalent method for wired local area

networks

Question 132

,

Hub vs. Switch Based Ethernet

Answer 132

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/selection_190-14A5D173432698D08C7.png

Question 133

,

Wireless Ethernet (WiFi) how

Answer 133

• Radio-based compatible extension to the Ethernet

standard

▪ Central access point is similar to a hub but is an

active node

▪ Central access point transmits and receives radio

waves to communicate with the nodes

Question 134

,

Radio space requirement ?

Answer 134

▪ Radio space must be shared between the nodes

Question 135

,

why is the Wireless Ethernet (WiFi) Does not use the CSMA-CD protocol?

Answer 135

Does not use the CSMA-CD protocol because it is

possible for units to be far away that although they can communicate with the access point, they cannot detect one another

Question 136

,

Wireless Ethernet Characteristics

Answer 136

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imagew7ebrx-14A5D1D7EFD0AF1736A.png

Question 137

,

Wireless Mesh Network

Answer 137

Mesh points operate at the medium-access control

layer and do not require wiring

Question 138

,

what is Backbone Networks also called ?

Answer 138

Also called tiered Ethernet

Question 139

,

what does the backbone networks do ?

Answer 139

▪ Ties together LANs and provides access to external networks

like the Internet

Question 140

,

what is the Chief motivation of Backbone Networks ?

Answer 140

Chief motivation is to improve overall performance of a larger

network by creating separate networks for groups of users who

primarily communicate with one another

Question 141

,

when in the backbone networks Communicate between the LANs is enabled?

Answer 141

Communicate between the LANs is enabled only when

necessary

Question 142

,

did you know that

Answer 142

in Backbone Networks Overall range of the network can be extended beyond the limits
of a single LAN
Can be viewed as a large LAN where each node is itself a LAN

Question 143

,

example of the backbone networks ?

Answer 143

Intranets – an organizational network where user interfaces and

applications are primarily based on Web services

Question 144

,

Backbone Network

Answer 144

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imageeekerx-14A5D2543935633B090.png

Question 145

,

what is the Metropolitan Area Networks?

Answer 145

A network larger in geographical scope than a LAN

but within a range of less than 30 miles or 50 km

Question 146

,

did you know that there is Often there is a desire to create network links to link
locations

Answer 146

that would require running wires through someone else’s property.

Question 147

,

how does MAN works

Answer 147

▪ Requires services from a service provider or public carrier

▪ Begins to resemble a WAN

▪ Edge connection – a connection at an access point on the customer’s premises that connects to a provider

Question 148

,

what is Campus area network (CAN) ?

Answer 148

▪ Network type between a LAN and a MAN

▪ Number of interconnected buildings clustered together

Question 149

,

Metropolitan Area Network

Answer 149

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/imageju36qx-14A5D28CBCB4208E85A.png

Question 150

,

what is Wide Area Networks (WAN) ?

Answer 150

▪ Facilitate communications between users and applications over large geographical distances

▪ Distinguishing feature is the extensive reliance on service providers to provide the required connectivity between nodes

Question 151

,

how is the carrier network represented by in WAN?

Answer 151

The carrier network is sometimes represented as a collection of

private virtual networks

Question 152

,

Primary reasons for WANs

Answer 152

▪ Organization requires data communication links between widely spread facilities and between an organization and its external contacts

▪ Organization requires fast access to the Internet, either as a consumer or as a provider of Internet services, or both

Question 153

,

what is an example in WAN?

Answer 153

Extranet

▪ A connection between a business and its business partners that

usually uses the Internet as a medium for its activities

Question 154

,

Two Real-World WANs

Answer 154

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/image1zuzqx-14A5D2CFDF421B98E74.png

Question 155

,

Wide Area Network Carrier Options

Answer 155

https://s3.amazonaws.com/classconnection/655/flashcards/7082655/png/image38aerx-14A5D2D8B8D48804881.png

Question 156

,

what does (ISPs) do ?

Answer 156

Internet Service Providers

Question 157

,

traits of the Internet backbone?

Answer 157

▪ High speed fiber optic networks that carry traffic between major cities throughout the world

▪ Speed ranges from 45 to 625 Gbps with faster backbones in the future

▪ Created to speed network traffic that would otherwise require many slow hops to the final destination

▪ No official central backbone and no official guidance for its development

Question 158

,

what does the Network access points do in the backbone ?

Answer 158

Interchanges between the backbones

Question 159

,

DID you know

Answer 159

▪ Local ISPs receive their service from regional ISPs who, in turn,

receive their service from national ISPs

Most regional ISPs also interconnect among themselves

Question 160

,

Comparison of Internet and

Highway Architecture

Answer 160

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Question 161

,

what is Piconets also known as >?

Answer 161

Also known as personal area networks (PAN)

Created for the personal use of an individual

Question 162

,

what is the pictonets range of?

Answer 162

▪ Generally have ranges of 30 feet or less which is

sufficient to permit an individual to interconnect

personal computing devices

▪ Connections between different cooperating users are possible but rare

Question 163

,

what is the primary medium for PANs?

Answer 163

Bluetooth

Question 164

,

example of the PANS ?

Answer 164

▪ Example: interconnection between a cell phone,

hands-free speaker and car radio

Question 165

,

ISO

Answer 165

(International Standards Organization)

▪ > 17,000 standards including the OSI Reference model

Question 166

,

IEEE

Answer 166

• (Institute for Electrical and Electronics Engineers

▪ Ethernet standards – Ethernet (802.3), Wi-Fi (802.11), Bluetooth (802.15) and

WiMax (802.16)

Question 167

,

what does ▪

IETF stands for ?

Answer 167

IETF (Internet Engineering Task Force)

▪ Internet standards based on RFCs (request for comments)

Question 168

,

what does ICANN stand for ?

Answer 168

ICANN

▪ Internet Corporation for Assigned Names and Numbers

▪ IP address allocation, domain name registration, protocol parameter

assignment

▪ Management of domain name and root server systems

Question 169

,

what does IANA stands for ?

Answer 169

(Internet Assigned Numbers Authority
▪ Registers application layer port numbers and specific parameter values used
in Internet protocol headers