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![Page 1: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/1.jpg)
Wavelet Based Subband Shrinkage Models and their Applications in Denoising of
Biomedical Signals
ByDr. S. Poornachandra
Dean IQACSNS College of Engineering
![Page 2: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/2.jpg)
04/20/23S. Poornachandra
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Objective Denoising of biomedical signals with
better performance
![Page 3: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/3.jpg)
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Types of noises The muscle artifacts
Respirator muscles Cardiac muscle Moving artifacts
Electro-magnetic radiations Power line frequency noise Instrument noise Interference of other physiological signals
![Page 4: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/4.jpg)
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Statistical Estimations
Mean Variance Risk
M
1k
2
kk θθER ˆ
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ECG Specification
The practical ECG was downloaded from the PhysioBank
Sampling rate is 360Hz Resolution is 11 Bits/Samples Bit rate is 3960 bps Length of ECG data: 650000 Length of ECG data considered: 5000
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Other biosignals used. . . .
EEG PCG Pulse Waveform
![Page 7: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/7.jpg)
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Parameters for Analysis
Signal to Noise Ratio (SNR) =
Percentage Root Mean-Squared Difference(PRD)
= SNR Improvements
= Input SNR – Output SNR RMS Error
= RMS (Recovered Signal – Original Signal) PSNR
=
VarianceNoise VarianceSignal
100% SignalOrigianl
SignalRecovered SignalOriginal
SignalRecovered - SignalOriginal SignalOriginal
![Page 8: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/8.jpg)
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Time-domain
Advantages Simple Easy to implement Lower computational complexity
Disadvantages Slow convergence when the input is highly
colored
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Need for Transform-domain Advantages
Better convergence Parallism
Disadvantages Complexity increases as order of the filter increases
Exhibit slow convergence High minimum mean square error
Remedy Subbanding – reduced coefficients at each subband
![Page 10: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/10.jpg)
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Advantages of Wavelet
Works on non-stationary data Time-frequency aspect gives information
about frequency composition of a signal at a particular time
Short signal pieces also have significance
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Wavelets Defined . . . . .
“The wavelet transform is a tool that cuts up data, functions or operators into different frequency components and then studies each component with a resolution matched to its scales”
Dr. Ingrid Daubechies, Lucent, Princeton U
![Page 12: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/12.jpg)
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DWT – Demystified
d3: Level 3 DWTCoeff.
Length: 512B: 0 ~
g[n] h[n]
g[n] h[n]
g[n] h[n]
2
d1: Level 1 DWTCoeff.
Length: 256B: 0 ~ /2 Hz
Length: 256B: /2 ~ Hz
Length: 128B: 0 ~ /4 HzLength: 128
B: /4 ~ /2 Hz
d2: Level 2 DWTCoeff.
…a3….
Length: 64B: 0 ~ /8 HzLength: 64
B: /8 ~ /4 Hz
2
2 2
22
|H(j)|
/2-/2
|G(j)|
- /2-/2
a2
a1
Level 3 approximation
Coefficients
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Shrinkage ?
A shrinkage method compares empirical wavelet coefficient with a threshold and is set to zero if its magnitude is less than the threshold value.
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Condition & Characteristics of Shrinkage
The magnitude of signal component must be larger than existing noise component
It does not introduce artifacts The wavelet transform localizes the most
important spatial and frequential features of a regular signal in a limited number of wavelet coefficients.
Observations suggest that small coefficients should be replace by zero, because they are dominated by noise and carry only a small amount of information.
![Page 15: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/15.jpg)
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Pioneers …
Donoho and Johnstone (1994) – Soft Shrinkage Coifman and Donoho (1995) – Cycle Spinning Nason (1996) – Cross Validation Shrinkage Bruce and Gao (1997) –Garrote Shrinkage
![Page 16: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/16.jpg)
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Shrinkage functions
xx
xx
x0,
xS
,
,
||
)(
|| ,
|| )(
xx
x0,xH
λ |x| /x)x-(λ
λ|x| 0,xG
,
)(
2
![Page 17: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/17.jpg)
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Shrinkage Algorithm
Apply DWT to the vector y and obtain the empirical wavelet coefficients cj,k at scale j, where j = 1, 2, . . , J.
Estimated coefficients are obtained based on the threshold
= [1, 2, . . . . j]T.
Apply shrinkage to the empirical wavelet coefficients at each scale j.
The estimate of the function can be obtained by taking inverse DWT.
![Page 18: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/18.jpg)
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Threshold methods
The rigrsure uses for the soft shrinkage estimator, which is a shrinkage solution rule based on Stein’s Unbiased Risk Estimate (SURE).
The sqtwolog threshold uses a fixed form threshold yielding minimax performance multiplied by a small factor proportional to log(length(x)).
The heursure threshold is the hybridization of both rigrsure and sqtwolog threshold.
The minimax threshold uses a fixed threshold chosen to yield minimax performance for MSE against an ideal procedure.
![Page 19: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/19.jpg)
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Median Absolute Deviation
Prof. Donoho proposed
Where, is the estimate of noise variance
Median Absolute Deviation MAD(v)=[|v1-vmed|, … , |v1-vmed|]med
)ln(2ˆ N
6745.0
ˆ , jicmedian
![Page 20: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/20.jpg)
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Alpha-trim Filter
The alpha-trim filter is a special type of L-filter,
A particular choice of aj coefficient yields a alpha-trim filter
where T is the largest integer which is less than or equal to αM, 0 ≤ α ≤ 0.5. When α = zero, the α-trim filter becomes the running mean filter; When α = 0.5, the α-trim filter becomes the median filter.
jxja ii
M
j1
jxii
TM
Tj TN
1 )(2
1
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Threshold at each subband
The Threshold values at each subband for 20% noise level is given in tables
SNR (dB) PRD (%) ECG Signal
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Wavelet level analysis
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Wavelet level analysis
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Hybrid Model ….
Analysis Filter
a3
d2
d3
d1
Hard shrinkage
Xshrinkage
Xshrinkage
Xshrinkage
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Basic shrinkage (ECG)
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Basic shrinkage (PCG)
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BSWTAF-I (Scale-Domain Analysis)
ATI Model
Analysis Filter
Adaptive Filter
Shrinkage Function
Synthesis Filter
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BSWTAF-II (Scale-Domain Analysis)
TAI Model
Analysis Filter
Shrinkage Function
Adaptive Filter
Synthesis Filter
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ASWTAF Model (Time-Domain Analysis)
TIA Model
Analysis Filter
Shrinkage Function
Adaptive Filter
Synthesis Filter
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ECG Simulation….
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ECG Simulation….
![Page 32: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/32.jpg)
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EEG Simulation….
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EEG Simulation….
![Page 34: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/34.jpg)
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PCG Simulation….
![Page 35: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/35.jpg)
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PCG Simulation….
![Page 36: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/36.jpg)
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Shrinkage Distribution
![Page 37: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/37.jpg)
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Hyper Shrinkage Function
Where
λ |x| x) tanh(ρ
λ |x| 0txxxhyp ) tanh()(
xmaxΔρ
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Modified-hyper shrinkage function
k is the scaling function
x
xxkxXmh
,0
,6
1)(
2
![Page 39: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/39.jpg)
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Subband Adaptive shrinkage function
j
j
j
SA
λ |x| 0
λ |x| -
1
--1
x jx2
j
x2
j
)(
![Page 40: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/40.jpg)
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ECG Denoising - Noise level is 20%
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ECG Denoising - Noise level is 20%
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EEG Denoising - Noise level is 20%
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EEG Denoising - Noise level is 20%
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PCG Denoising - Noise level is 20%
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PCG Denoising - Noise level is 20%
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Objective…
Reduce the minimum mean square error (MMSE)
between original ECG f and denoised ECG . y = [y1, y2, . . . , yN] N
Thenyi = f(xi) + ni, i = 1, 2, . . ,N
The risk function,
f̂
2ˆ1),ˆ( ff
NffR
![Page 47: Wavelet Based Subband Shrinkage Models and their Applications in Denoising of Biomedical Signals By Dr. S. Poornachandra Dean IQAC SNS College of Engineering.](https://reader035.fdocuments.net/reader035/viewer/2022062422/56649efd5503460f94c10834/html5/thumbnails/47.jpg)
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Estimation of Mean, Variance and Risk
)()( XEM
)()( XVarV
2)()(
XER2
)()(
MV
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Mean estimation for Hyper Shrinkage
Let X ~ N(θ,1), and be the probability distribution and the density function for standard Gaussian random variable respectively, then the Mean estimation is given by
kM hyp 13)(
k13
k11 2 k11 2
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Variance estimation for Hyper Shrinkage
The Variance estimation is given by
1)(hypV
2)(mhM
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Risk estimation for Hyper Shrinkage
The Risk estimation is given by
1)(hypR
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Mean estimation for Subband Adaptive Shrinkage
)(SAM 21 32)]()(2[ 2
)]()([2 2
)Φ( )Φ(- 22
The Mean estimation is given by
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Variance estimation for Subband Adaptive Shrinkage
The Variance estimation is given by
)(SAV )Φ(- )Φ(
)]()([31 2
)]1)(1([2 22 )Φ( )Φ(
)Φ(- )Φ(- )])[8 3 Φ(-Φ(
)Φ( )Φ(- 24 2)(SAM
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Powerline Frequency Interference Cancellation
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50 Hz Noise Cancellation in ECG
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50 Hz Noise Cancellation ECG
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50 Hz Noise Cancellation ECG
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50 Hz Noise Cancellation in EEG
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50 Hz Noise Cancellation in EEG
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50 Hz Noise Cancellation in EEG
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50 Hz Noise Cancellation in PCG
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50 Hz Noise Cancellation in PCG
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50 Hz Noise Cancellation in PCG
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Journal publication arise from this work
Poornachandra S. and N. Kumaravel, “A Wavelet coefficient smoothened RLS-Adaptive denoising model for ECG”, Journal of Biomedical Sciences Instrumentation, vol. 39, ISA vol. 437, pp. 154-157, April 2003.
Poornachandra S. and N. Kumaravel, “Hyper-trim shrinkage for denoising of ECG signal”, ELSEVIER Journal of Digital Signal Processing, Vol. 15, Issue-3, pp. 315-327, May 2005.
Poornachandra S. and N. Kumaravel, “Wavelet based Adaptive Denoising Models for Biological Signals”, Journal of Institute of Engineers, Vol. 86, Nov. 2005.
Poornachandra S. and N. Kumaravel, “Subband-Adaptive Shrinkage for Denoising of ECG Signals”, EURASIP Journal on Applied Signal Processing (Available online).
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Journal publication arise from this work
Poornachandra S. and N. Kumaravel, “Wavelet Thresholding by -Trim Mean Filter”, Journal of Institute of Engineers, Vol. 87, January 2007
Poornachandra S. and N. Kumaravel, “Statistical Estimation for Hyper Shrinkage”, ELSEVIER Journal of Digital Signal Processing, (Available online).
Poornachandra S. and N. Kumaravel, “A Novel method for the Elimination of Power Line Frequency in ECG Signal using Hyper Shrinkage Function”, ELSEVIER Journal of Digital Signal Processing, (In Press).
Poornachandra S. and N. Kumaravel, “Hyper Shrinkage for Denoising of ECG Signal with Adaptive Filter”, ELSEVIER Journal of Digital Signal Processing, (Under Review).
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Conference publication
Poornachandra S. and Dr N. Kumaravel, “A new wavelet co-efficient smoothened Adaptive filtering for bio-signal”, Proc. of ICBME, 4th –7th December 2002, Singapore.
Poornachandra S. and Dr N. Kumaravel “Wavelet coefficient smoothened LMS-adaptive denoising model for electro-cardio graph”, Proc. of NCC, 31st-2nd Jan-Feb 2003, Chennai, India.
Poornachandra S., Dr N. Kumaravel et al., “A modified Wavelet model with RLS-adaptive for denoising Gaussian Noise from ECG signal”, Proc. of NSIP, 8th –11th June 2003, Grudo-Triesta, Italy.
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Conference publication
Poornachandra S., Dr N. Kumaravel et al., “Denoising of ECG by -Trim thresholding of Wavelet coefficients”, Proc. of NCC, 31st-2nd Jan-Feb 2004, Bangalore, India.
Poornachandra S., Dr. N. Kumaravel et al, “WaveShrink using Modified Hyper-Shrinkage Function” Proc. of IEEE-EMBC, 1st – 4th September 2005, Shanghai, China.(best session paper award)
Poornachandra S., Dr. N. Kumaravel et al, “A Novel method for the elimination of powerline frequency in ECG signals using modified-hyper shrinkage”, Proc. of IFMBE, ICBME2005, 7th – 10th December 2005, Singapore.
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Conclusion…..
In real time bio-signal acquisition, the noise level is always less than the signal level. Hence shrinkage is the better choice for denoising
This thesis suggested that shrinkage can also be used to eliminate powerline frequency from bio-signals.
This thesis proposed following shrinkage function that are better than the existing ones and its mathematical models
Hyper shrinkage Modified shrinkage Subband-Adaptive shrinkage
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Suggested for future work
1. Image processing applications2. VLSI implementation3. Better shrinkage models can be proposed4. Communication signal processing5. Iterative shrinkage6. Fussy shrinkage
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Bias and Variance