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Muhammad Tahir Akhtar
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2020 – today
- 2024
- [c46]Muhammad Tahir Akhtar:
Engaging Undergraduate Students in Signal Processing Research: Vision, Strategy, and A Success Story. EDUCON 2024: 1-5 - [c45]Muhammad Tahir Akhtar:
On Adaptive Feedback Active Noise Control Systems With Online Adaptation of Secondary Path Estimation Filter. MWSCAS 2024: 698-702 - [c44]Muhammad Tahir Akhtar:
Efficient Adaptive Feedback Cancellation Method for Digital Hearing Aids Employing Short Processing Delays. NewCAS 2024: 368-372 - [c43]Muhammad Tahir Akhtar:
On Developing a Robust Filtered-Reference RLS Algorithm and its Application for ANC Systems Targeting Impulsive Noise Sources. PACRIM 2024: 1-6 - [c42]Bauyrzhan Kurmangaliyev, Muhammad Tahir Akhtar:
Weighted Singular Value Thresholding and Gradient Optimization of Unbiased Risk Estimate for Rank Estimation in Automatic Music Transcription. PACRIM 2024: 1-6 - 2023
- [j24]Muhammad Tahir Akhtar, Felix Albu, Akinori Nishihara:
Prediction Error Method (PEM)-Based Howling Cancellation in Hearing Aids: Can We Do Better? IEEE Access 11: 337-364 (2023) - [j23]Sanzhar Yergaliyev, Muhammad Tahir Akhtar:
A Systematic Review on Distributed Arithmetic-Based Hardware Implementation of Adaptive Digital Filters. IEEE Access 11: 85165-85183 (2023) - [c41]Zangar Ermaganbet, Ayana Mussabayeva, Prashant Kumar Jamwal, Muhammad Tahir Akhtar:
Subject-Independent P300 Speller Classification using Time-Frequency Representation and Double Input CNN with Feature Concatenation. DSP 2023: 1-5 - [c40]Daniyar Zhakyp, Muhammad Tahir Akhtar:
Employing Neighborhood Component Analysis as a Feature Selection Method in the Pattern Recognition Approach for Surface Electromyography Signal Classification. DSP 2023: 1-5 - [c39]Fatima Kozhamkulova, Prashant Kumar Jamwal, Muhammad Tahir Akhtar:
Signal Denoising Technique Employing Detrended Fluctuation Thresholding and Stationary Wavelet Transform in the Framework of Data-driven Multiresolution Analysis. ISCAS 2023: 1-5 - [c38]Osman Demirel, Muhammad Tahir Akhtar:
Dual-Input Type Convolutional Neural Networks Employing Color Normalized and Nuclei Segmented Data for Histopathology Image Classification. SSP 2023: 378-382 - 2022
- [j22]Furqan Iqbal, Muhammad Tufail, Shakeel Ahmed, Muhammad Tahir Akhtar:
A fractional taylor series-Based least mean square algorithm, and its application to power signal estimation. Signal Process. 193: 108405 (2022) - 2021
- [j21]Ruslan Zhagypar, Kalamkas Zhagyparova, Muhammad Tahir Akhtar:
Spatially Smoothed TF-Root-MUSIC for DOA Estimation of Coherent and Non-Stationary Sources Under Noisy Conditions. IEEE Access 9: 95754-95766 (2021) - [j20]Khuram Naveed, Muhammad Tahir Akhtar, Muhammad Faisal Siddiqui, Naveed ur Rehman:
A statistical approach to signal denoising based on data-driven multiscale representation. Digit. Signal Process. 108: 102896 (2021) - [j19]Muhammad Tahir Akhtar:
Narrowband feedback active noise control systems with secondary path modeling using gain-controlled additive random noise. Digit. Signal Process. 111: 102976 (2021) - [c37]Ayana Mussabayeva, Zangar Ermaganbet, Prashant Kumar Jamwal, Muhammad Tahir Akhtar:
Event-Related Spectrogram Representation of EEG for CNN-Based P300 Speller. APSIPA ASC 2021: 410-415 - [c36]Timur Okhassov, Prashant Kumar Jamwal, Muhammad Tahir Akhtar:
Cost-Effective Proportionate Affine Projection Algorithm with Variable Parameters for Acoustic Feedback Cancellation. APSIPA ASC 2021: 416-422 - [c35]Nurbek Saidnassim, Beibit Abdikenov, Rauan Kelesbekov, Muhammad Tahir Akhtar, Prashant Kumar Jamwal:
Self-supervised Visual Transformers for Breast Cancer Diagnosis. APSIPA ASC 2021: 423-427 - [c34]Ayana Mussabayeva, Prashant Kumar Jamwal, Muhammad Tahir Akhtar:
Ensemble Learning Approach for Subject-Independent P300 Speller. EMBC 2021: 5893-5896 - 2020
- [j18]Muhammad Tahir Akhtar:
On Active Impulsive Noise Control (AINC) Systems. Circuits Syst. Signal Process. 39(9): 4354-4377 (2020) - [c33]Ayana Mussabayeva, Prashant Kumar Jamwal, Muhammad Tahir Akhtar:
Comparison of Generic and Subject-Specific Training for Features Classification in P300 Speller. APSIPA 2020: 222-227 - [c32]Ruslan Zhagypar, Kalamkas Zhagyparova, Muhammad Tahir Akhtar:
Exploiting the Rules of the TF-MUSIC and Spatial Smoothing to Enhance the DOA Estimation for Coherent and Non-stationary Sources. APSIPA 2020: 236-241 - [c31]Muhammad Tahir Akhtar, Markus V. S. Lima, Paulo S. R. Diniz:
On Adaptation of Cancelation Path Modeling Filter in Single-Channel Feedback-Type Adaptive Active Noise Control Systems. MWSCAS 2020: 852-855 - [c30]Muhammad Tahir Akhtar:
Novel Recursive Least Squares-Based Filtered-x Adaptive Algorithm Developed for Active Control of Impulsive Noise Sources. SMC 2020: 2359-2364
2010 – 2019
- 2019
- [j17]Muhammad Tahir Akhtar, Felix Albu, Akinori Nishihara:
Acoustic feedback cancellation in hearing aids using dual adaptive filtering and gain-controlled probe signal. Biomed. Signal Process. Control. 52: 1-13 (2019) - [j16]Muhammad Tufail, Shakeel Ahmed, Muhammad Rehan, Muhammad Tahir Akhtar:
A two adaptive filters-based method for reducing effects of acoustic feedback in single-channel feedforward ANC systems. Digit. Signal Process. 90: 18-27 (2019) - [c29]Muhammad Tahir Akhtar:
Adaptive Feedback Active Noise Control (AFB-ANC) System Equipped with Online Adaptation and Convergence Monitoring of the Cancellation-Path Estimation (CPE) Filter. GlobalSIP 2019: 1-5 - [c28]Muhammad Tahir Akhtar:
A Fully Adaptive Feedback ANC System Employing Online Estimation of the Cancellation Path. MWSCAS 2019: 674-677 - 2018
- [c27]Muhammad Tahir Akhtar:
A Convex-Combined Step-Size-Based Normalized Modified Filtered-x Least Mean Square Algorithm for Impulsive Active Noise Control Systems. EUSIPCO 2018: 2454-2458 - [c26]Muhammad Tahir Akhtar, Akinori Nishihara:
Two-Adaptive Filter-Based Method Using Gain Controlled Probe Noise for Acoustic Feedback Neutralization in Digital Hearing Aids. IWAENC 2018: 176-180 - [c25]Muhammad Tahir Akhtar:
A Normalized Filtered-x Generalized Fractional Lower Order Moment Adaptive Algorithm for Impulsive ANC Systems. MWSCAS 2018: 821-824 - [d1]Muhammad Tahir Akhtar, Felix Albu, Akinori Nishihara:
Audio Files. IEEE DataPort, 2018 - 2017
- [j15]Shakeel Ahmed, Muhammad Tahir Akhtar:
Gain Scheduling of Auxiliary Noise and Variable Step-Size for Online Acoustic Feedback Cancellation in Narrow-Band Active Noise Control Systems. IEEE ACM Trans. Audio Speech Lang. Process. 25(2): 333-343 (2017) - [c24]Muhammad Tahir Akhtar, Akinori Nishihara:
Lattice adaptive filtering-based method for acoustic feedback cancellation in hearing aids with robustness against sudden changes in the feedback path. IWSDA 2017: 59-63 - 2016
- [j14]Muhammad Tahir Akhtar:
Binormalized data-reusing adaptive filtering algorithm for active control of impulsive sources. Digit. Signal Process. 49: 56-64 (2016) - [j13]Muhammad Rehan, Muhammad Tufail, Muhammad Tahir Akhtar:
On elimination of overflow oscillations in linear time-varying 2-D digital filters represented by a Roesser model. Signal Process. 127: 247-252 (2016) - [c23]Muhammad Tahir Akhtar, Akinori Nishihara:
Automatic tuning of probe noise for continuous acoustic feedback cancelation in hearing aids. EUSIPCO 2016: 888-892 - [c22]Muhammad Tahir Akhtar, Shakeel Ahmed:
A robust normalized variable tap-length normalized fractional LMS algorithm. MWSCAS 2016: 1-4 - [c21]Khuram Naveed, Bakhtiar Ali, Muhammad Tahir Akhtar:
A variable step size affine projection algorithm based on the principle of orthogonality. MWSCAS 2016: 1-4 - 2015
- [c20]Muhammad Tahir Akhtar, Muhammad Asif Zahoor Raja:
Fractional processing-based active noise control algorithm for impulsive noise. ChinaSIP 2015: 10-14 - [c19]Shakeel Ahmed, Muhammad Tahir Akhtar, Xi Zhang:
Variable step-size based-adaptive algorithm for acoustic feedback cancellation during online operation of ANC systems. ChinaSIP 2015: 74-78 - 2014
- [c18]Muhammad Tahir Akhtar, Akinori Nishihara:
A delay-based dual adaptive filtering solution for acoustic feedback in digital hearing aids. ISPACS 2014: 88-93 - [c17]Yoshihiro Sakai, Muhammad Tahir Akhtar:
The acoustic echo cancelation using blind source separation to reduce double-talk interference. IWAENC 2014: 323-326 - [c16]Muhammad Tahir Akhtar:
Binormalized data-reusing filtered-reference algorithm for impulsive active noise control. MWSCAS 2014: 691-694 - 2013
- [j12]Shakeel Ahmed, Muhammad Tahir Akhtar, Xi Zhang:
Online acoustic feedback mitigation with improved noise-reduction performance in active noise control systems. IET Signal Process. 7(6): 505-514 (2013) - [j11]Shakeel Ahmed, Muhammad Tahir Akhtar, Xi Zhang:
Robust Auxiliary-Noise-Power Scheduling in Active Noise Control Systems With Online Secondary Path Modeling. IEEE Trans. Speech Audio Process. 21(4): 749-761 (2013) - [c15]Marko Kanadi, Muhammad Tahir Akhtar, Wataru Mitsuhashi:
A variable step-size-based ICA method for a fast and robust acoustic echo cancellation system without requiring double-talk detector. ChinaSIP 2013: 118-121 - [c14]Muhammad Tahir Akhtar, Akinori Nishihara:
Acoustic feedback neutralization in digital hearing aids - A two adaptive filters-based solution. ISCAS 2013: 529-532 - [c13]Yoshihiro Sakai, Muhammad Tahir Akhtar:
The performance of the acoustic echo cancelation using blind source separation to reduce double-talk interference. ISPACS 2013: 61-66 - [c12]Cruz Alfredo Ruiz-Martinez, Muhammad Tahir Akhtar, Yoshikazu Washizawa, Enrique Escamilla Hernández:
On investigating efficient methodology for Environmental Sound Recognition. ISPACS 2013: 210-214 - [c11]Muhammad Tahir Akhtar, Akinori Nishihara:
On delay-based technique for acoustic feedback cancellation in digital hearing aids. MWSCAS 2013: 983-986 - [c10]Muhammad Tahir Akhtar:
Fractional Lower Order Moment (FLOM)-Based Adaptive Algorithm with Data-Reusing for Active Noise Control of Impulsive Sources. SITIS 2013: 31-37 - 2012
- [j10]Muhammad Tahir Akhtar, Wataru Mitsuhashi, Christopher J. James:
Employing spatially constrained ICA and wavelet denoising, for automatic removal of artifacts from multichannel EEG data. Signal Process. 92(2): 401-416 (2012) - [c9]Shakeel Ahmed, Akihisa Oishi, Muhammad Tahir Akhtar, Wataru Mitsuhashi:
Auxiliary noise power scheduling for on-line secondary path modeling in single channel feedforward active noise control systems. ICASSP 2012: 317-320 - [c8]Muhammad Tahir Akhtar, Tzyy-Ping Jung, Scott Makeig, Gert Cauwenberghs:
Recursive independent component analysis for online blind source separation. ISCAS 2012: 2813-2816 - 2011
- [j9]Muhammad Tahir Akhtar, Wataru Mitsuhashi:
Improving Performance of Hybrid Active Noise Control Systems for Uncorrelated Narrowband Disturbances. IEEE Trans. Speech Audio Process. 19(7): 2058-2066 (2011) - 2010
- [c7]Muhammad Tahir Akhtar, Wataru Mitsuhashi:
A modified normalized FxLMS algorithm for active control of impulsive noise. EUSIPCO 2010: 1-5 - [c6]Muhammad Tahir Akhtar, Wataru Mitsuhashi:
Variable step-size based online acoustic feedback neutralization in single-channel active noise control systems. EUSIPCO 2010: 21-25
2000 – 2009
- 2009
- [j8]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata, Wataru Mitsuhashi:
A simplified method for online acoustic feedback path modeling and neutralization in multichannel active noise control systems. Signal Process. 89(6): 1090-1099 (2009) - [c5]Muhammad Tahir Akhtar, Wataru Mitsuhashi:
Mitigating uncorrelated periodic disturbance in narrowband active noise control systems. EUSIPCO 2009: 155-159 - [c4]Muhammad Tahir Akhtar, Wataru Mitsuhashi:
Robust adaptive algorithm for active noise control of impulsive noise. ICASSP 2009: 261-264 - [c3]Muhammad Tahir Akhtar, Wataru Mitsuhashi:
Improving Performance of Active Noise Control Systems in the Presence of Uncorrelated Periodic Disturbance at Error Microphone. ISCAS 2009: 2041-2044 - 2008
- [j7]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata, Akinori Nishihara:
Online secondary path modeling in multichannel active noise control systems using variable step size. Signal Process. 88(8): 2019-2029 (2008) - 2007
- [j6]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata:
Noise power scheduling in active noise control systems with online secondary path modeling. IEICE Electron. Express 4(2): 66-71 (2007) - [j5]Muhammad Tahir Akhtar, Muhammad Tufail, Masahide Abe, Masayuki Kawamata:
Acoustic feedback neutralization in active noise control systems. IEICE Electron. Express 4(7): 221-226 (2007) - [j4]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata:
On Active Noise Control Systems With Online Acoustic Feedback Path Modeling. IEEE Trans. Speech Audio Process. 15(2): 593-600 (2007) - 2006
- [j3]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata:
A new variable step size LMS algorithm-based method for improved online secondary path modeling in active noise control systems. IEEE Trans. Speech Audio Process. 14(2): 720-726 (2006) - 2005
- [j2]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata:
A New Structure for Feedforward Active Noise Control Systems With Improved Online Secondary Path Modeling. IEEE Trans. Speech Audio Process. 13(5-2): 1082-1088 (2005) - [c2]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata:
A method for online secondary path modeling in active noise control systems. ISCAS (1) 2005: 264-267 - 2004
- [j1]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata:
Adaptive filtering with averaging-based algorithm for feedforward active noise control systems. IEEE Signal Process. Lett. 11(6): 557-560 (2004) - 2003
- [c1]Muhammad Tahir Akhtar, Masahide Abe, Masayuki Kawamata:
On use of averaging in FxLMS algorithm for single-channel feedforward ANC systems. ISCAS (4) 2003: 389-392
Coauthor Index
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