1 pcm & dpcm & dm. 2 pulse-code modulation (pcm) : in pcm each sample of the signal is...
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2
Pulse-Code Modulation (PCM) : In PCM each sample of the signal is
quantized to one of the amplitude levels, where R is the number of bits used to represent each sample.The rate from the source is bps.
The quantized waveform is modeled as :
q(n) represent the quantization error, Which we treat as an additive noise.
R2
sRF
)()()(~ nqnsns
3
Pulse-Code Modulation (PCM) :The quantization noise is characterize as a
realization of a stationary random processstationary random process q in which each of the random variables q(n) has uniform pdf.
Where the step size of the quantizer is 22
q
B 2
2
/1
2
4
Pulse-Code Modulation (PCM) : If :maximum amplitude of signal,
The mean square value of the quantization error is :
Measure in dB, The mean square value of the noise is :
B
A
2max
maxA
12212|)(
1
)(1
)(
2
2max
22/
2/3
2/
2/
22
B
Anq
dqnqnq
.dB 8.10612
2log10
12log10
2
10
2
10
BB
5
Pulse-Code Modulation (PCM) : The quantization noise decreases by 6 db/bit.6 db/bit. If the headroom factor is h, then
The signal to noise (S/N) ratio is given by
(Amax=1)
In dB, this is
hh
AX
B
rms
2max
2
2
2
22
1212/
SNRh
X
N
S Brms
hBh
B
102
2
10dB log208.106212
log10SNR
6
Pulse-Code Modulation (PCM) : Example :
We require an S/N ratio of 60 dB and that a headroom factor of 4 is acceptable. Then the required word length is :
60=10.8 + 6B – 20
If we sample at 8 KHZ, then PCM require
bit 112.10 B
4log10
bit/s. 8800011 8 k
7
Pulse-Code Modulation (PCM) : A nonuniform quantizer characteristic is
usually obtained by passing the signal through a nonlinear device that compress the signal amplitude, follow by a uniform quantizer.
Compressor A/D D/A Expander
Compander
(Compressor-ExpandeCompressor-Expander)
8
Pulse-Code Modulation (PCM) : A logarithmic compressor employed in
North American telecommunications systems has input-output magnitude characteristic of the form
is a parameter that is selected to give the desired compression characteristic.
)1log(
|)|1log(||
sy
9
Pulse-Code Modulation (PCM) : The logarithmic compressor used in
European telecommunications system is called A-law and is defined as
A
sAy
log1
|)|1log(||
10
DPCM : A Sampled sequence u(m), coded up to
m=n-1.
Let be the value of the reproduced (decoded) sequence.
),...2(~),1(~ nunu
11
DPCM: At m=n, when u(n) arrives, a quantify ,
an estimate of u(n), is predicted from the previously decoded samples i.e.,
”prediction rule” Prediction error:
)(~ nu
),...2(~),1(~ nunu
),...);2(),1(()(~ nununu
)(~)()( nunune
:(.)
12
DPCM : If is the quantized value of e(n), then
the reproduced value of u(n) is:
Note:
)(~ ne
)(~)(~)(~ nenunu
)(in error on Quantizati The :)(
)(~)(
))(~)(~())()(~(
)(~)(
)()(~)(
nenq
nene
nenunenu
nunu
nenunu
13
DPCM CODEC:
)(~ nu
)(~ nuΣ Quantizer
Σ
ΣCommunication
Channel
PredictorPredictor
)(nu )(ne )(~ ne
)(~ nu
)(~ nu
)(~ ne
Coder Decoder
14
DPCM: Remarks:
The pointwise coding error in the input sequence is exactly equal to q(n), the quantization error in e(n).
With a reasonable predictor the mean square value of the differential signal e(n) is much smaller than that of u(n).
15
DPCM: Conclusion:
For the same mean square quantization error, e(n) requires fewer quantization bits than u(n).
The number of bits required for transmission has been reduced while the quantization error is kept the same.
16
Delta Modulation : (DM) Predictor : one-step delay function
Quantizer : 1-bit quantizer
)1(~)()(
)1(~)(~
nunune
nunu
17
Delta Modulation : (DM) Primary Limitation of DM
Slope overload : large jump region
Max. slope = (step size)X(sampling freq.)
Granularity Noise : almost constant region
Instability to channel noise
18
DM:
Unit Delay
Unit Delay
Integrator
)(nu )(ne )(~ ne
)(~ nu)(~ nu
)(~ ne )(~ nu
)(~ nu
Coder
Decoder
20
Adaptive DM:
1kX
1kE1ks
Adaptive Function
Unit DelaykX 1k
Storedk mink ,E,
11
min1min
min11
11
|| if
|| if ]2
[||
][sgn
kkk
kk
kk
kkk
kKk
XX
E
EE
XSE
This adaptive approach simultaneously minimizes the effects of both slope overload and granular noise
22
Vector Quantization : Quantization is the process of
approximating continuous amplitude signals by discrete symbols.
Partitioning of
two-dimensional
Space into 16 cells.
23
Vector Quantization : The LBG algorithm first computes a 1-
vector codebook, then uses a splitting algorithm on the codeword to obtain the initial 2-vector codebook, and continue the splitting process until the desired M-vector codebook is obtained.
This algorithm is known as the LBG algorithm proposed by Linde, Buzo and Gray.
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Vector Quantization : The LBG Algorithm :
Step 1:Step 1: Set M (number of partitions or cells)=1.Find the centroid of all the training data.
Step 2:Step 2: Split M into 2M partitions by splitting each current codeword by finding two points that are far apart in each partition using a heuristic method, and use these two points as the new centroids for the new 2M codebook. Now set M=2M.
Step 3:Step 3: Now use a iterative algorithm to reach the best set of centroids for the new codebook.
Step 4:Step 4: if M equals the VQ codebook size require, STOP; otherwise go to Step 2.
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