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CN Unit-1 PPT

This document provides an introduction to computer networks. It discusses data communications and the components of a data communication system including messages, senders, receivers, transmission medium, and protocols. It also describes different types of connecting devices like hubs, switches, and routers. The document introduces the OSI reference model and its seven layers. It discusses concepts related to different layers like physical, data link, network, and transport layers. It also summarizes TCP/IP model and protocols like FTP, SMTP, DNS, SNMP. Finally, it discusses integrated digital networks and benefits to subscribers.

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1K views230 pages

CN Unit-1 PPT

This document provides an introduction to computer networks. It discusses data communications and the components of a data communication system including messages, senders, receivers, transmission medium, and protocols. It also describes different types of connecting devices like hubs, switches, and routers. The document introduces the OSI reference model and its seven layers. It discusses concepts related to different layers like physical, data link, network, and transport layers. It also summarizes TCP/IP model and protocols like FTP, SMTP, DNS, SNMP. Finally, it discusses integrated digital networks and benefits to subscribers.

Uploaded by

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© © All Rights Reserved
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UNIT-1

An Introduction to Computer Network

Shyam B. Verma
(Assistant Professor)
1-1 DATA COMMUNICATIONS

Data communications are the exchange of data


between two devices via some form of transmission
medium such as a wire cable.
A network is a set of devices (often referred to as
nodes) connected by communication links.
A node can be a computer, printer, or any other
device capable of sending and/or receiving data
generated by other nodes on the network.
A link can be a cable, air, optical fiber, or any
medium which can transport a signal carrying
information.
1.1.1 Components
A data communications system has five components:
1. Message
2. Sender
3. Receiver
4. Transmission Medium
5. protocols
Figure 1.1: Five components of data communication
Data Representation

Information today comes in different forms such as:


• Text
• Numbers
• Images
• Audio
• Video
Three Categories of Connecting Devices
Hubs
• A hub is a device that operates only in the physical
layer.
• Signals that carry information within a network can
travel a fixed distance before attenuation endangers
the integrity of the data.
• A repeater receives a signal and, before it becomes
too weak or corrupted, regenerates and retimes the
original bit pattern.
Link-Layer Switches
• A link-layer switch (or switch) operates in both the
physical and the data-link layers.
• As a physical-layer device, it regenerates the signal
it receives.
• As a link-layer device, the link-layer switch can
check the MAC addresses (source and destination)
contained in the frame.
Learning switch
Routers

• We will discuss routers in Unit-3 when we discuss


the network layer. In this section, we mention routers
to compare them with a two-layer switch and a hub.
• A router is a three-layer device; it operates in the
physical, data-link, and network layers.
NETWORK MODELS
Tasks involved in sending a letter
OSI Reference Model
An exchange using the OSI model
Functions of Physical Layer
Physical characteristics
Representation of bits
Data rate
Synchronization of bits
Line Configuration
Physical topology
Transmission mode
Functions of Data Link Layer
Framing
Physical addressing
Flow control
Error control
Access control
Functions of Network Layer
Logical addressing
Routing/Switching
Source to destination connectivity
Congestion control
Fragmentation
Responsibilities of Transport Layer
End to End connectivity (Process to process delivery of
entire message) [Service Point Addressing-SPA]
Multiplexing/De-multiplexing
Congestion control
Flow control
Error control
Segmentation and reassembly
Session, Presentation, and Application layers
The Session layer is responsible for dialog control and
synchronization.

The Presentation layer is responsible for translation,


compression, and encryption.

The Application layer is responsible for providing


services to the user.
 Network virtual terminal
 File transfer, access & management
 Mail services
 Directory services
Summary of OSI Model
TCP/IP Model
SCTP [Stream Control Transmission Protocol] is a connection oriented protocol &
provides full duplex transmission of stream.
FTP: File Transfer Protocol
SMTP: Simple Mail Transfer Protocol
DNS: Domain Name System
SNMP: Simple Network Management protocol
Signal Levels Vs Data Levels
Line Coding Schemes
Note

In unipolar encoding, we use only one voltage


level.

120
Note

In polar encoding, we use two voltage levels:


positive & negative

122
• Return to Zero (RZ) is a binary bit stream encoding scheme in which the signal
returns to zero voltage in between the data bits.
• A bit 0 is represented by negative voltage and bit 1 is represented by positive voltage.
Manchester Encoding
There are two types of conventions in Manchester encoding:
1. Dr. Thomas: In this manchester encoding 0 is represented as low-to-
high and 1 is represented as high-to-low.

2. IEEE802.3: In this manchester encoding, 0 is represented as high-to-


low and 1 is represented as low-to-high.

Application of Manchester Encoding:


• It is used for IR protocols, RFID, and NFC system.
• Manchester Encoding is transparent.
• There is no signal-dropping issue.
Differential Manchester Encoding
• It is also known as the Biphase mark code, etc.
• The presence and absence of the transition indicate the value.
• In  Differential Manchester Encoding 0 should contain an edge but 1
should not contain any edge it should be continuous.
Manchester Encoding

130
Differential Manchester Encoding

131
Note

In Manchester and differential Manchester


encoding, the transition
at the middle of the bit is used for
synchronization.

132
Note

In bipolar encoding, we use three levels:


positive, zero, and negative.

135
Alternate Mark Inversion :A binary '0' is represented by no signal and a 'binary 1' as a positive or
negative pulse.  The pulses corresponding to the binary 1's must have an alternating polarity.

Pseudoternary:
A binary '1' is represented by no signal and a binary '0' as a positive or negative pulse. The pulses
corresponding to the binary 0's must have an alternating polarity.
ADVANTAGES

• There is no synchronization problem (binary 1 string in AMI and binary


0 string in Pseudoternaries ).
• There is no continuous component (string of 1 in AMI and string of 0 in
Pseudoternaries).
• Bandwidth is lower compared to NRZ.
• Error detection is easy due to the alternation between the pulses.
Optical Fibre Transmission Mode
Source-to-destination data transfer in a circuit-switch network
Delays in a circuit-switched network

Data transfer
Setup request in a virtual-circuit network
Setup acknowledgment in a virtual-circuit network
Delay in a virtual-circuit network
Integrated Digital Network
Benefits to Subscribers
Single access line for all services
Ability to tailor service purchased to suit needs
Competition among equipment vendors due to
standards
Availability of competitive service providers

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