Open Systems Interconnect (OSI) Model

Question

What best describes the Open Systems Interconnection model (OSI) ?

Answer 1

A physical model that contains seven layers and provides different vendors to communicate on the network.

Answer 2

Its a conceptual model that characterizes and standardizes the internal functions of the a communication system by partitioning it into abstraction layers.

Answer 3

Provides the functional and procedural means to transfer data between network entities and to detect and possibly correct errors that may occur in the physical layer.

Answer 4

Provides the functional and procedural means of transferring variables length data sequences from a source host on one network to a destination host on a different network.

Answer 5

Defines the electrical and physical specifications for devices.

Answer 6

Provides the functional and procedural means of transferring variables length data sequences from a source host on one network to a destination host on a different network. It routes packets through logical addressing.

Answer 7

Defines the electrical and physical specifications for devices.

Answer 8

Defines how data is formatted for transmission and how access to the network is controlled. Provides error detection but no flow control using sliding window.

Answer 9

It segments and reassembles data in to a data stream. Services in this layer segment and reassembles data from upper layer applications.

Answer 10

Provides the physical transmission of data and handles error notification, network topology, and flow control.

Answer 11

Manages device addressing, tracks the locations of devices in the network and determines the best way to move data through logical addressing.

Answer 12

Manages device addressing, tracks the locations of devices in the network and determines the best way to move data through logical addressing.

Answer 13

Provides the physical transmission of data and handles error notification, network topology, and flow control.

Answer 14

It segments and reassembles data in to a data stream. Services in this layer segment and reassembles data from upper layer applications.

Answer 15

Provides the physical transmission of data and handles error notification, network topology, and flow control.

Answer 16

Defines the electrical and physical specifications for devices.

Answer 17

Defined as a translator and provides coding and conversion functions. Presents data to the Application layer and is responsible for data translation and code formatting.

Answer 18

Manages device addressing, tracks the locations of devices in the network and determines the best way to move data through logical addressing.

Answer 19

Its responsible for setting up, managing and tearing down sessions between Presentation Layer entities.

Answer 20

It segments and reassembles data in to a data stream. Services in this layer segment and reassembles data from upper layer applications.

Answer 21

IPv4 and IPv6 used in logical addressing

Answer 22

Hubs and Repeaters. Also transmission media such as copper and fiber.

Answer 23

Hardware addressing, flow control and error notification.

Answer 24

Physical addressing, Network topology, Flow control and Error notification.

Answer 25

TCP and UDP

Answer 26

IPv4 and IPv6

Answer 27

FIle, print, messages, database and application services

Answer 28

Hubs and Repeaters

Answer 29

IPv4 and IPv6

Answer 30

TCP and UDP

Answer 31

Routing using IPv4 and IPv6

Answer 32

Dialog control and sessions.

Answer 33

Establishes sessions and tearing down virtual circuit.

Answer 34

Data encryption, compression, and translation services.

Answer 35

UDP and TCP.

Answer 36

Data encryption, compression, and translation services.

Answer 37

Physical topology

Answer 38

Keeps applications data separate from other applications data.

Answer 39

File, print, message and database.

Answer 40

dialog control, simplex mode, half duplex mode, and full duplex mode.

Answer 41

TCP and UDP

Answer 42

Physical Topologies

Answer 43

Telnet, HTTP, Email, SSH, DNS, FTP, SMTP and LDAP, and SNMP.

Answer 44

1) fast 2) network

Answer 45

1) physical 2) error

Answer 46

1) access control 2) error

Answer 47

It is a sublayer of the Data Link layer that is responsible for physical addressing. It defines how packets are placed on the media. Its called media access since it acts as a first come first service access.

Answer 48

It is a sublayer of the Data Link layer that is responsible for identifying network layer protocols and encapsulating them. Its header tells the data link layer what to do with the packet once a frame is received.

Answer 49

It is a sublayer of the Data Link layer that is responsible for identifying network layer protocols and encapsulating them. Its header tells the data link layer what to do with the packet once a frame is received.

Answer 50

It is a sublayer of the Data Link layer that is responsible for physical addressing. It defines how packets are placed on the media. Its called media access since it acts as a first come first service access.

Answer 51

48 bit hexadecimal address

Answer 52

64 bit hexadecimal address

Answer 53

128 bit hexadecimal address

Answer 54

The first 24 bits is the unique serial number and the second 24 bits represent the OUI

Answer 55

The first 24 bits is the customer number and the second 24 bits represent the unique serial number

Answer 56

The first 24 bits is the vendor (Organizational Unique Identifier) and the second 24 bits represent the unique serial number.

Answer 57

Its a topology that allows network access for data transmission in the network

Answer 58

It is a contention media access method that allows all users on the network to share the same bandwidth.

Answer 59

It communicates with the LAN as a one to many hosts.

Answer 60

It communicates with the LAN as a one to one host.

Answer 61

it communicates with the LAN as a one to certain hosts

Answer 62

It communicates with the LAN as a one to nearest host

Answer 63

It communicates with the LAN as a one to many hosts.

Answer 64

It communicates with the LAN as a one to one host.

Answer 65

it communicates with the LAN as a one to certain hosts

Answer 66

It communicates with the LAN as a one to nearest host

Answer 67

It communicates with the LAN as a one to many hosts.

Answer 68

It communicates with the LAN as a one to one host.

Answer 69

it communicates with the LAN as a one to certain hosts

Answer 70

It communicates with the LAN as a one to nearest host

Answer 71

It communicates with the LAN as a one to one host.

Answer 72

It communicates with the LAN as a one to many hosts.

Answer 73

It communicates with the LAN as a one to nearest host

Answer 74

it communicates with the LAN as a one to certain hosts

Answer 75

Its used for the physical layer as an enhanced Ethernet transmission access method.

Answer 76

Its used for implementing wireless local area network (WLAN).

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Open Systems Interconnect (OSI) Model

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