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Transcript of Computer Communication & Networks Lecture # 05 Physical Layer: Signals & Digital Transmission Nadeem...
![Page 1: Computer Communication & Networks Lecture # 05 Physical Layer: Signals & Digital Transmission Nadeem Majeed Choudhary nadeem.majeed@uettaxila.edu.pk.](https://reader036.fdocuments.us/reader036/viewer/2022062802/56649ec65503460f94bd1364/html5/thumbnails/1.jpg)
Computer Communication & Networks
Lecture # 05Physical Layer: Signals & Digital Transmission
Nadeem Majeed [email protected]
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Physical Layer Topics to CoverSignals
Digital Transmission
Analog Transmission
Multiplexing
Transmission Media
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Digital to Digital Conversion
The conversion involves three techniques: line codingline coding, block codingblock coding, and scramblingscrambling. . Line coding is always needed; block coding and scrambling may or may not be needed.
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4.4
Line Coding
Converting a string of 1’s and 0’s (digital data) into a sequence of signals that denote the 1’s and 0’s.
For example a high voltage level (+V) could represent a “1” and a low voltage level (0 or -V) could represent a “0”.
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Line Coding & Decoding
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4.6
Mapping Data symbols onto Signal levels A data symbol (or element) can consist of a
number of data bits: 1 , 0 or 11, 10, 01, ……
A data symbol can be coded into a single signal element or multiple signal elements 1 -> +V, 0 -> -V 1 -> +V and -V, 0 -> -V and +V
The ratio ‘r’ is the number of data elements carried by a signal element.
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4.7
Relationship between data rate and signal rate The data rate defines the number of bits sent
per sec - bps. It is often referred to the bit rate.
The signal rate is the number of signal elements sent in a second and is measured in bauds. It is also referred to as the modulation rate.
Goal is to increase the data rate whilst reducing the baud rate.
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Signal Levels (Elements) Vs Data Levels (Elements)
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4.9
Data rate and Baud rate
The baud or signal rate can be expressed as:
S = c x N x 1/r bauds
where N is data rate
c is the case factor (worst, best & avg.)
r is the ratio between data element & signal element
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Pulse Rate Vs Bit Rate
ExampleExample
A signal has two data levels with a pulse duration of 1 ms. We calculate the pulse rate and bit rate as follows:
Pulse Rate = 1/ 10Pulse Rate = 1/ 10-3-3= 1000 pulses/s= 1000 pulses/s
Bit Rate = Pulse Rate x logBit Rate = Pulse Rate x log22 L = 1000 x log L = 1000 x log22 2 = 1000 bps 2 = 1000 bps
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4.11
A signal is carrying data in which one data element is encoded as one signal element ( r = 1). If the bit rate is 100 kbps, what is the average value of the baud rate if c is between 0 and 1?
SolutionWe assume that the average value of c is 1/2 . The baud rate is then
Example 4.1
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4.12
Although the actual bandwidth of a digital signal is infinite, the effective
bandwidth is finite.
Note
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4.13
The maximum data rate of a channel is Nmax = 2 × B × log2 L (defined by the Nyquist formula). Does this agree with the previous formula for Nmax?SolutionA signal with L levels actually can carry log2L bits per level. If each level corresponds to one signal element and we assume the average case (c = 1/2), then we have
Example 4.2
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DC Component
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Lack of Synchronization
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Example 3Example 3
In a digital transmission, the receiver clock is 0.1 percent faster than the sender clock. How many extra bits per second does the receiver receive if the data rate is 1 Kbps? How many if the data rate is 1 Mbps?
SolutionSolution
At 1 Kbps:1000 bits sent 1001 bits received1 extra bpsAt 1 Mbps: 1,000,000 bits sent 1,001,000 bits received1000 extra bps
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4.17
Considerations for choosing a good signal element referred to as line encoding Baseline wandering - a receiver will evaluate the average power of the received signal (called the baseline) and use that to determine the value of the incoming data elements. If the incoming signal does not vary over a long period of time, the baseline will drift and thus cause errors in detection of incoming data elements.
A good line encoding scheme will prevent long runs of fixed amplitude.
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4.18
Line encoding C/Cs
DC components - when the voltage level remains constant for long periods of time, there is an increase in the low frequencies of the signal. Most channels are bandpass and may not support the low frequencies.
This will require the removal of the dc component of a transmitted signal.
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4.19
Line encoding C/Cs
Self synchronization - the clocks at the sender and the receiver must have the same bit interval.
If the receiver clock is faster or slower it will misinterpret the incoming bit stream.
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4.20
Figure 4.3 Effect of lack of synchronization
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4.21
In a digital transmission, the receiver clock is 0.1 percent faster than the sender clock. How many extra bits per second does the receiver receive if the data rate is 1 kbps? How many if the data rate is 1 Mbps?SolutionAt 1 kbps, the receiver receives 1001 bps instead of 1000 bps.
Example 4.3
At 1 Mbps, the receiver receives 1,001,000 bps instead of 1,000,000 bps.
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4.22
Line encoding C/Cs
Error detection - errors occur during transmission due to line impairments.
Some codes are constructed such that when an error occurs it can be detected. For example: a particular signal transition is not part of the code. When it occurs, the receiver will know that a symbol error has occurred.
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4.23
Line encoding C/Cs
Noise and interference - there are line encoding techniques that make the transmitted signal “immune” to noise and interference.
This means that the signal cannot be corrupted, it is stronger than error detection.
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4.24
Line encoding C/Cs
Complexity - the more robust and resilient the code, the more complex it is to implement and the price is often paid in baud rate or required bandwidth.
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Line Coding Schemes
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In unipolar encoding, we use only one voltage level.
Note
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Unipolar Encoding
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In polar encoding, we use two voltage levels: positive & negative
Note
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Polar: NRZ-L and NRZ-I Encoding
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In NRZ-L the level of the voltage determines the value of the bit.
In NRZ-I the inversion or the lack of inversion
determines the value of the bit.
Note
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Polar: RZ Encoding
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Polar: Manchester Encoding
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Polar: Differential Manchester Encoding
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In Manchester and differential Manchester encoding, the transition
at the middle of the bit is used for synchronization.
Note
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In bipolar encoding, we use three levels: positive, zero, and negative.
Note
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Bipolar: AMI (Alternative Mark Inversion) Encoding
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Summary
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Transmission Modes
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Transmission Modes
The transmission of binary data across a link can be accomplished in either parallel or serial mode. In parallel mode, multiple bits are sent with each clock tick. In serial mode, 1 bit is sent with each clock tick. While there is only one way to send parallel data, there are two subclasses of serial transmission: asynchronous, synchronous.
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Parallel Transmission
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Serial Transmission
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In asynchronous transmission, we send 1 start bit (0) at the beginning and 1 or more stop bits (1s) at the end of each
byte. There may be a gap between each byte.
Note
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Asynchronous here means “asynchronous at the byte level,”
but the bits are still synchronized; their durations are the same.
Note
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Asynchronous Transmission
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In synchronous transmission, we send bits one after another without start or
stop bits or gaps. It is the responsibility of the receiver to group the bits.
Note
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Synchronous Transmission
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Readings
Chapter 4 (B.A Forouzan) Section 4.1, 4.2, 4.3
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Q & A