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OSI Model
  Application
  Presentation
  Session
  Transport
  Network
  Data Link
  Physical
Mensagem 1

Informa

BR

O caminho certo da Informação

 

Mensagem 2

SEJAM
BEM-VINDOS !

 

 
OSI Model Layers:
 
Short for Open System Interconnection, an ISO standard for worldwide communications that defines a networking framework for implementing protocols in seven layers. Control is passed from one layer to the next, starting at the application layer in one station, proceeding to the bottom layer, over the channel to the next station and back up the hierarchy.

At one time, most vendors agreed to support OSI in one form or another, but OSI was too loosely defined and proprietary standards were too entrenched. Except for the OSI-compliant X.400 and X.500 e-mail and directory standards, which are widely used, what was once thought to become the universal communications standard now serves as the teaching model for all other protocols.

Most of the functionality in the OSI model exists in all communications systems, although two or three OSI layers may be incorporated into one.

OSI is also referred to as the OSI Reference Model or just the OSI Model.

Application | Presentation | Session | Transport

Network | Data Link | Physical

Layer

Function Protocols Network Components
Application

User Interface





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  • used for applications specifically written to run over the network
  • allows access to network services that support applications;
  • directly represents the services that directly support user applications
  • handles network access, flow control and error recovery
  • Example apps are file transfer,e-mail, NetBIOS-based  applications           
DNS; FTP; TFTP; BOOTP; SNMP;RLOGIN; SMTP; MIME; NFS; FINGER; TELNET; NCP; APPC; AFP; SMB Gateway
Presentation

Translation

 

 

 

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  • Translates from application to network format and vice-versa
  • all different formats from all sources are made into a common uniform format that the rest of the OSI model can understand
  • responsible for protocol conversion, character conversion,data encryption / decryption, expanding graphics commands, data compression
  • sets standards for different systems to provide seamless communication from multiple protocol stacks
  • not always implemented in a network protocol
  Gateway

Redirector

Session

"syncs and sessions"

 

 

 

 

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  • establishes, maintains and ends sessions across the network
  • responsible for name recognition (identification) so only the designated parties can participate in the session
  • provides synchronization services by planning check points in the data stream => if session fails, only data after the most recent checkpoint need be transmitted
  • manages who can transmit data at a certain time and for how long
  • Examples are interactive login and file transfer connections, the session would connect and re-connect if there was an interruption; recognize names in sessions and register names in history
NetBIOS

Names Pipes

Mail Slots

RPC

Gateway

Transport

packets; flow control & error-handling

 

 

 

 

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  • additional connection below the session layer
  • manages the flow control of data between parties across the network
  • divides streams of data into chunks or packets; the transport layer of the receiving computer reassembles the message from packets
  • "train" is a good analogy => the data is divided into identical units
  • provides error-checking to guarantee error-free data delivery, with on losses or duplications
  • provides acknowledgment of successful transmissions; requests retransmission if some packets don’t arrive error-free
  • provides flow control and error-handling
TCP, ARP, RARP;

SPX

NWLink

NetBIOS / NetBEUI

ATP

Gateway

Advanced Cable Tester

Brouter

Network

addressing; routing

 

 

 

 

 

 

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  • translates logical network address and names to their physical address (e.g. computername ==> MAC address)
  • responsible for
    • addressing
    • determining routes for sending
    • managing network problems such as packet switching, data congestion and routing
  • if router can’t send data frame as large as the source computer sends, the network layer compensates by breaking the data into smaller units. At the receiving end, the network layer reassembles the data
  • think of this layer stamping the addresses on each train car
IP; ARP; RARP, ICMP; RIP; OSFP;

IGMP;

IPX

NWLink

NetBEUI

OSI

DDP

DECnet

Brouter

Router

Frame Relay Device

ATM Switch

Advanced Cable Tester

Data Link

data frames to bits

 

 

 

 

 

 

 

 

 

 

 

 

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  • turns packets into raw bits 100101 and at the receiving end turns bits into packets.
  • handles data frames between the Network and Physical layers
  • the receiving end packages raw data from the Physical layer into data frames for delivery to the Network layer
  • responsible for error-free transfer of frames to other computer via the Physical Layer
  • this layer defines the methods used to transmit and receive data on the network. It consists of the wiring, the devices use to connect the NIC to the wiring, the signaling involved to transmit / receive data and the ability to detect signaling errors on the network media
Logical Link Control
  • error correction and flow control
  • manages link control and defines SAPs

802.1 OSI Model

802.2 Logical Link Control

Bridge

Switch

ISDN Router

Intelligent Hub

NIC

Advanced Cable Tester

Media Access Control
  • communicates with the adapter card
  • controls the type of media being used:

802.3 CSMA/CD (Ethernet)

802.4 Token Bus (ARCnet)

802.5 Token Ring

802.12 Demand Priority

Physical

hardware; raw bit stream

 

 

 

 

 

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  • transmits raw bit stream over physical cable
  • defines cables, cards, and physical aspects
  • defines NIC attachments to hardware, how cable is attached to NIC
  • defines techniques to transfer bit stream to cable
IEEE 802

IEEE 802.2

ISO 2110

ISDN

Repeater

Multiplexer

Hubs

  • Passive
  • Active

TDR

Oscilloscope

Amplifier



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