Enhanced signal processing using modified cyclic shift tree denoising

Enhanced signal processing using modified cyclic shift tree denoising

The cortical pyramidal neurons in the cerebral cortex, which are positioned perpendicularly to the brain’s surface, are assumed to be the primary source of the electroencephalogram (EEG) reading. The EEG reading generated by the brainstem in response to auditory impulses is known as the Auditory Bra...

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Main Authors: Hussain, Hadri, Wan Abd. Aziz, W. S. N. A., Ting, Chee Ming, M. Noman, Fuad, Ahmad Zubaidi, A. L., Samdin, S., Sh., Hadrina, A. Jalil, M., Yusoff, Yusmeera, Jacob, Kavikumar, Ray, Kanad, Kaiser, M. Shamim, Shaikh Salleh, Sheikh Hussain, Ali, Jalil
Format: Conference or Workshop Item
Published: 2021
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QC Physics
Online Access:http://eprints.utm.my/id/eprint/96130/
http://dx.doi.org/10.1007/978-3-030-82269-9_12
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.961302022-07-04T04:40:52Z http://eprints.utm.my/id/eprint/96130/ Enhanced signal processing using modified cyclic shift tree denoising Hussain, Hadri Wan Abd. Aziz, W. S. N. A. Ting, Chee Ming M. Noman, Fuad Ahmad Zubaidi, A. L. Samdin, S. Sh., Hadrina A. Jalil, M. Yusoff, Yusmeera Jacob, Kavikumar Ray, Kanad Kaiser, M. Shamim Shaikh Salleh, Sheikh Hussain Ali, Jalil QC Physics The cortical pyramidal neurons in the cerebral cortex, which are positioned perpendicularly to the brain’s surface, are assumed to be the primary source of the electroencephalogram (EEG) reading. The EEG reading generated by the brainstem in response to auditory impulses is known as the Auditory Brainstem Response (ABR). The identification of wave V in ABR is now regarded as the most efficient method for audiology testing. The ABR signal is modest in amplitude and is lost in the background noise. The traditional approach of retrieving the underlying wave V, which employs an averaging methodology, necessitates more attempts. This results in a protracted length of screening time, which causes the subject discomfort. For the detection of wave V, this paper uses Kalman filtering and Cyclic Shift Tree Denoising (CSTD). In state space form, we applied Markov process modeling of ABR dynamics. The Kalman filter, which is optimum in the mean-square sense, is used to estimate the clean ABRs. To save time and effort, discrete wavelet transform (DWT) coefficients are employed as features instead of filtering the raw ABR signal. The results show that even with a smaller number of epochs, the wave is still visible and the morphology of the ABR signal is preserved. 2021 Conference or Workshop Item PeerReviewed Hussain, Hadri and Wan Abd. Aziz, W. S. N. A. and Ting, Chee Ming and M. Noman, Fuad and Ahmad Zubaidi, A. L. and Samdin, S. and Sh., Hadrina and A. Jalil, M. and Yusoff, Yusmeera and Jacob, Kavikumar and Ray, Kanad and Kaiser, M. Shamim and Shaikh Salleh, Sheikh Hussain and Ali, Jalil (2021) Enhanced signal processing using modified cyclic shift tree denoising. In: 1st International Conference on Applied Intelligence and Informatics, AII 2021, 30 July 2021 - 31 July 2021, Virtual, Online. http://dx.doi.org/10.1007/978-3-030-82269-9_12
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic QC Physics
spellingShingle QC Physics
Hussain, Hadri
Wan Abd. Aziz, W. S. N. A.
Ting, Chee Ming
M. Noman, Fuad
Ahmad Zubaidi, A. L.
Samdin, S.
Sh., Hadrina
A. Jalil, M.
Yusoff, Yusmeera
Jacob, Kavikumar
Ray, Kanad
Kaiser, M. Shamim
Shaikh Salleh, Sheikh Hussain
Ali, Jalil
Enhanced signal processing using modified cyclic shift tree denoising
description The cortical pyramidal neurons in the cerebral cortex, which are positioned perpendicularly to the brain’s surface, are assumed to be the primary source of the electroencephalogram (EEG) reading. The EEG reading generated by the brainstem in response to auditory impulses is known as the Auditory Brainstem Response (ABR). The identification of wave V in ABR is now regarded as the most efficient method for audiology testing. The ABR signal is modest in amplitude and is lost in the background noise. The traditional approach of retrieving the underlying wave V, which employs an averaging methodology, necessitates more attempts. This results in a protracted length of screening time, which causes the subject discomfort. For the detection of wave V, this paper uses Kalman filtering and Cyclic Shift Tree Denoising (CSTD). In state space form, we applied Markov process modeling of ABR dynamics. The Kalman filter, which is optimum in the mean-square sense, is used to estimate the clean ABRs. To save time and effort, discrete wavelet transform (DWT) coefficients are employed as features instead of filtering the raw ABR signal. The results show that even with a smaller number of epochs, the wave is still visible and the morphology of the ABR signal is preserved.
format Conference or Workshop Item
author Hussain, Hadri
Wan Abd. Aziz, W. S. N. A.
Ting, Chee Ming
M. Noman, Fuad
Ahmad Zubaidi, A. L.
Samdin, S.
Sh., Hadrina
A. Jalil, M.
Yusoff, Yusmeera
Jacob, Kavikumar
Ray, Kanad
Kaiser, M. Shamim
Shaikh Salleh, Sheikh Hussain
Ali, Jalil
author_facet Hussain, Hadri
Wan Abd. Aziz, W. S. N. A.
Ting, Chee Ming
M. Noman, Fuad
Ahmad Zubaidi, A. L.
Samdin, S.
Sh., Hadrina
A. Jalil, M.
Yusoff, Yusmeera
Jacob, Kavikumar
Ray, Kanad
Kaiser, M. Shamim
Shaikh Salleh, Sheikh Hussain
Ali, Jalil
author_sort Hussain, Hadri
title Enhanced signal processing using modified cyclic shift tree denoising
title_short Enhanced signal processing using modified cyclic shift tree denoising
title_full Enhanced signal processing using modified cyclic shift tree denoising
title_fullStr Enhanced signal processing using modified cyclic shift tree denoising
title_full_unstemmed Enhanced signal processing using modified cyclic shift tree denoising
title_sort enhanced signal processing using modified cyclic shift tree denoising
publishDate 2021
url http://eprints.utm.my/id/eprint/96130/
http://dx.doi.org/10.1007/978-3-030-82269-9_12
_version_ 1738510327572594688

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