communication technology by shashi bhushan school of computer and information sciences
TRANSCRIPT
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COMMUNICATION TECHNOLOGY
by
Shashi BhushanSchool of Computer and Information Sciences
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Communication Technologies
• ATM
• FDDI
• Fast Ethernet
• WAP, GSM
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ATM
• Analyse the type of connection to be made.
• Analyse the type of data to be transmitted and knowing its traffic profile.
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ATM
• Reserve a virtual path for the data to allow
• Splitting the data into small packets which have minimum overhead
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Type of Connection
• Dependent upon type of data
• Computer data requires a reliable connection
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Traffic Profile of Data
• Computer data tends to create bursts of traffic
• Real time data requires constant traffic
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ATM
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
1 2 3 4 5 6 7 8 9 10 11
Example Traffic Profile for speech signal
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ATM
0
0.2
0.4
0.6
0.8
1
1.21 3 5 7 9
11
13
15
17
19
21
23
25
27
29
Example Traffic Profile for computer-type data
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ATM
Integrate real-time data (such as voice and video signals) and non-real-time data (such as computer data).
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Objective of ATM
• Connection should be free of errors for computer type data
• Real time data are more tolerant to errors any losses of small part the data
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Objective of ATM
• For real time data, constant sampling rate and low propagation delay required
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Real Time Sampling
The basic principle in analog to digital conversion involves:
• Sampling Theory
• Pulse Code Modulation (PCM)
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Sampling Theory
If a signal is to be reconstructed as the original signal, it must be sampled at a rate defined by the Nyquist Criterion.
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Ts
Sampling
The Sampling Process
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Sampling Theory
The sampling rate must be twice the highest frequency of the signal.
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Sampling Theory
Type of Data Frequency Range (Bandwidth)
Sampling Rate
Speech (Telephone Channel)
4 khz 8000 time per second (8kz every 125 s)
Hi-fi quality audio
20 khz 40000 times per second
Video Signal 6 mhz 12mhz (or once every 83.3ns)
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PCM
Once analog signals have been sampled for their amplitude, they can be converted into a digital format using PCM. The digital form is then transmitted over the transmission media.
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Technology used in Transmitting Digital Signals
• PCM-TDM
• ISDN (Integrated Services Digital Network)
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ATM Vs ISDN & PCM-TDM
ISDN & PCM-TDM uses a synchronous transfer mode (STM) technique where a connection is made between two devices by circuit switching.
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The main problems with this type of transmission are:
• Fixed time slots, no matter whether data is being transmitted or not
ATM Vs ISDN & PCM-TDM
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• Not possible to service high burst rate by allocating either time slots or switched circuits when all of the other time slots are full, or because switched circuits are being used.
ATM Vs ISDN & PCM-TDM
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ATM
ATM overcomes these problems by–
• Splitting the data up into small length packets, known as cells
• Statistical multiplexing
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ISDN
ISDN uses transmission bit rate of 64 kbps. This is the same as digitized speech signal rate.
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ISDN
Digitized speech signal rate = 8
Sampling rate bits used for sampling
= 8 khz 8 bits = 64 kbps
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ISDN
Computer type data can be transmitted using 64 kbps rate or can be split to transmit over several 64 kbps channels.
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ISDN Channels
ISDN uses channels to identify the data rate, each based on the 64 kbps provisions.
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ISDN Channels
CHANNEL DESCRIPTION
B 64 kbps
D • 16 kbps signalling for channel B (ISDN)
• 64 kbps signalling for channel B (B-ISDN)
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ISDN Channels
H0 384 kbps (6 64 kbps) for B-ISDN
H11 1.536 mbps (26 64 kbps) for B-ISDN
H12 1.920 mbps (30 64 kbps) for B-ISDN
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Ethernet
• Most commonly used LAN
• Based on IEEE 802.3 standard
• Requires other protocols such as TCP/IP to allow nodes to communicate
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Ethernet
• Ethernet networks are easy to plan and cheap to install
• Well proven technology, which is fairly robust and reliable
• Simple to add and delete computers on the network
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Ethernet
Drawback
• Not deterministic
• Does not cope with heavy traffic
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Bit Rate
• 10 kbps – In its standard form
• 100 kbps – Fast Ethernet
• 1 gbps – Fast Ethernet
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Ethernet
• Use of coaxial, fiber optic or twisted-pair cable
• Use of bus-type network topology where all nodes share a common bus
• Use of CSMA/CD
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Ethernet Types
The six main types of standard Ethernet are:
• Standard or thick-wire, Ethernet (10BASE5)
• Thinnet or thin wire (10BASE2)
• Twisted pair Ethernet (10BASE-T)
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Ethernet Types
• Optical Fiber Ethernet (10BASE-FL)
• Fast Ethernet
• Gigabit Ethernet
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10BASE5 Parameters
• Data rate – 10Mbps
• Max. Segment Length – 500m
• Max. nodes on a segment – 100
• Max. number of repeaters – 2
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10BASE5 Parameters
• Max. nodes per Network – 1024
• Min. node spacing – 2.5m