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David B. H. Tay
David Ban Hock Tay
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2020 – today
- 2024
- [j62]David B. H. Tay
:
Distributed Graph Regularized Denoising via Constrained Chebyshev Polynomials. IEEE Signal Process. Lett. 31: 1815-1819 (2024) - 2023
- [j61]Ruijie Zhao, David B. H. Tay
A Complex Exponential Structure for Low-Complexity Variable Fractional Delay FIR Filters. Circuits Syst. Signal Process. 42(2): 1105-1141 (2023) - [j60]Fatemeh Ansarizadeh
Deterministic sampling in heterogeneous graph neural networks. Pattern Recognit. Lett. 172: 74-81 (2023) - [j59]Ruijie Zhao, David B. H. Tay
Minimax design of two-channel critically sampled graph QMF banks. Signal Process. 212: 109129 (2023) - [j58]David B. H. Tay
Median Autoregressive Graph Filters. IEEE Signal Process. Lett. 30: 833-837 (2023) - [j57]David B. H. Tay
Nonlinear Graph Wavelets via Medianfication. IEEE Trans. Signal Process. 71: 2744-2759 (2023) - 2022
- [j56]Fang Zhou, Junzheng Jiang, David B. H. Tay
Distributed reconstruction of time-varying graph signals via a modified Newton's method. J. Frankl. Inst. 359(16): 9401-9421 (2022) - [j55]David B. H. Tay
Spectral Mappings for Graph Wavelets. IEEE Trans. Signal Process. 70: 3107-3122 (2022) - 2021
- [j54]David B. H. Tay:
Sensor network data denoising via recursive graph median filters. Signal Process. 189: 108302 (2021) - [j53]David B. H. Tay
Time-Varying Graph Signal Denoising via Median Filters. IEEE Trans. Circuits Syst. II Express Briefs 68(3): 1053-1057 (2021) - [j52]Junzheng Jiang
Theory and Design of Joint Time-Vertex Nonsubsampled Filter Banks. IEEE Trans. Signal Process. 69: 1968-1982 (2021) - [c37]Ziwang Luo, David B. H. Tay, Xiaoping Lai, Zhiping Lin:
Design of Orthogonal Wavelet Filters with Minimum RMS Bandwidth Using A Symbolic Approach. ISCAS 2021: 1-5 - 2020
- [j51]Junzheng Jiang
Design of Nonsubsampled Graph Filter Banks via Lifting Schemes. IEEE Signal Process. Lett. 27: 441-445 (2020) - [j50]David B. H. Tay
Filter Design for Two-Channel Filter Banks on Directed Bipartite Graphs. IEEE Signal Process. Lett. 27: 2094-2098 (2020) - [j49]Junzheng Jiang
Recovery of Time-Varying Graph Signals via Distributed Algorithms on Regularized Problems. IEEE Trans. Signal Inf. Process. over Networks 6: 540-555 (2020) - [c36]Fatemeh Ansarizadeh
Augmenting Graph Convolutional Neural Networks with Highpass Filters. S+SSPR 2020: 77-86
2010 – 2019
- 2019
- [j48]Ruijie Zhao, Xiaoping Lai, David B. H. Tay, Zhiping Lin:
An Alternating Variable Technique for the Constrained Minimax Design of Frequency-Response-Masking Filters. Circuits Syst. Signal Process. 38(2): 827-846 (2019) - [j47]Junzheng Jiang, David B. H. Tay
Decentralised signal processing on graphs via matrix inverse approximation. Signal Process. 165: 292-302 (2019) - [j46]David B. H. Tay
M-Channel Graph Filter Banks: Polyphase Analysis and Structures. IEEE Signal Process. Lett. 26(5): 730-734 (2019) - 2018
- [j45]Waseem Waheed
Graph polynomial filter for signal denoising. IET Signal Process. 12(3): 301-309 (2018) - [j44]David B. H. Tay
Almost Tight Rational Coefficients Biorthogonal Wavelet Filters. IEEE Signal Process. Lett. 25(6): 748-752 (2018) - [c35]David B. H. Tay, Antonio Ortega, Aamir Anis:
Cascade and Lifting Structures in the Spectral Domain for Bipartite Graph Filter Banks. APSIPA 2018: 1141-1147 - 2017
- [j43]David B. H. Tay, Yuichi Tanaka
Almost Tight Spectral Graph Wavelets With Polynomial Filters. IEEE J. Sel. Top. Signal Process. 11(6): 812-824 (2017) - [j42]Thi Loan Nguyen, Li Xu, Zhiping Lin, David B. H. Tay:
On minimal realizations of first-degree 3D systems with separable denominators. Multidimens. Syst. Signal Process. 28(1): 305-314 (2017) - [j41]David B. H. Tay, Yuichi Tanaka
Critically sampled graph filter banks with polynomial filters from regular domain filter banks. Signal Process. 131: 66-72 (2017) - [j40]David B. H. Tay, Antonio Ortega:
Bipartite Graph Filter Banks: Polyphase Analysis and Generalization. IEEE Trans. Signal Process. 65(18): 4833-4846 (2017) - [c34]Aamir Anis, David B. H. Tay, Antonio Ortega:
Tree-structured filter banks for M-block cyclic graphs. ACSSC 2017: 55-59 - [c33]Nhu Y. Le, Zhiping Lin, David B. H. Tay, Li Xu, Jiuwen Cao:
Design of orthogonal filterbanks with rational coefficients using Grobner bases. ISCAS 2017: 1-4 - 2016
- [j39]Yi-Ping Phoebe Chen
Systematic review of virtual speech therapists for speech disorders. Comput. Speech Lang. 37: 98-128 (2016) - [j38]David B. H. Tay, Yuichi Tanaka
Near Orthogonal Oversampled Graph Filter Banks. IEEE Signal Process. Lett. 23(2): 277-281 (2016) - [c32]David B. H. Tay, Zhiping Lin:
Biorthogonal filter banks constructed from four halfband filters. ISCAS 2016: 1222-1225 - 2015
- [j37]Selvaraaju Murugesan, David B. H. Tay, Ira Cooke
Application of dual tree complex wavelet transform in tandem mass spectrometry. Comput. Biol. Medicine 63: 36-41 (2015) - [j36]David B. H. Tay, Selvaraaju Murugesan:
A class of rational coefficients biorthogonal Hilbert-pairs. Int. J. Circuit Theory Appl. 43(7): 887-899 (2015) - [j35]David B. H. Tay, Zhiping Lin:
Design of Near Orthogonal Graph Filter Banks. IEEE Signal Process. Lett. 22(6): 701-704 (2015) - [j34]David B. H. Tay, Jingxin Zhang:
Techniques for Constructing Biorthogonal Bipartite Graph Filter Banks. IEEE Trans. Signal Process. 63(21): 5772-5783 (2015) - [c31]David B. H. Tay, Zhiping Lin:
Graph QMF with flatness constraints. ISCAS 2015: 2600-2603 - 2014
- [j33]David B. H. Tay, Selvaraaju Murugesan:
Energy optimized orthonormal wavelet filter bank with prescribed sharpness. Digit. Signal Process. 31: 136-144 (2014) - [j32]Selvaraaju Murugesan, David B. H. Tay:
A new class of almost symmetric orthogonal Hilbert pair of wavelets. Signal Process. 95: 76-87 (2014) - [j31]David B. H. Tay, Selvaraaju Murugesan:
Sharper Symmetric Self-Hilbertian wavelets. Signal Process. 98: 202-211 (2014) - [j30]David B. H. Tay, Zhiping Lin, Selvaraaju Murugesan:
Orthogonal Wavelet Filters with Minimum RMS Bandwidth. IEEE Signal Process. Lett. 21(7): 819-823 (2014) - 2012
- [j29]David B. H. Tay:
Symmetric self-Hilbertian filters via extended zero-pinning. Signal Process. 92(2): 392-400 (2012) - [j28]David B. H. Tay:
Symmetric Self-Hilbertian Wavelets via Orthogonal Lattice Optimization. IEEE Signal Process. Lett. 19(7): 387-390 (2012) - [j27]Selvaraaju Murugesan, David B. H. Tay:
New Techniques for Rationalizing Orthogonal and Biorthogonal Wavelet Filter Coefficients. IEEE Trans. Circuits Syst. I Regul. Pap. 59-I(3): 628-637 (2012) - [j26]Selvaraaju Murugesan, David B. H. Tay:
Design of Almost Symmetric Orthogonal Wavelet Filter Bank Via Direct Optimization. IEEE Trans. Image Process. 21(5): 2474-2480 (2012) - [c30]Selvaraaju Murugesan, David B. H. Tay:
On the aliasing effect of the finer directional wavelet transform. ISCAS 2012: 2345-2348 - 2011
- [c29]David B. H. Tay:
Direct design of phase factor in the common-factor technique for Hilbert-Pairs. ISCAS 2011: 1760-1763 - 2010
- [j25]David B. H. Tay:
Design of orthonormal Hilbert-pair of wavelets using zero-pinning. Signal Process. 90(3): 866-873 (2010) - [j24]David B. H. Tay:
A New Approach to the Common-Factor Design Technique for Hilbert-Pair of Wavelets. IEEE Signal Process. Lett. 17(11): 969-972 (2010) - [c28]David B. H. Tay, Jingxin Zhang:
On Hilbert-pairs from non-minimum phase Daubechies filters. ISCAS 2010: 1619-1622
2000 – 2009
- 2009
- [j23]David B. H. Tay:
Comments on "Design of Halfband Filters for Orthogonal Wavelets Via Sum of Squares Decomposition". IEEE Signal Process. Lett. 16(2): 109-111 (2009) - 2008
- [j22]David B. H. Tay:
Daubechies Wavelets as Approximate Hilbert-Pairs? IEEE Signal Process. Lett. 15: 57-60 (2008) - [j21]Cong-Van Nguyen, David B. H. Tay:
Regression Using Multikernel and Semiparametric Support Vector Algorithms. IEEE Signal Process. Lett. 15: 481-484 (2008) - [j20]David Ban Hock Tay:
ETHFB: A New Class of Even-Length Biorthogonal Wavelet Filters for Hilbert Pair Design. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(6): 1580-1588 (2008) - [j19]David B. H. Tay:
Hilbert Pair of Orthogonal Wavelet Bases: Revisiting the Condition. IEEE Trans. Signal Process. 56(4): 1716-1721 (2008) - 2007
- [j18]Guang Deng, David B. H. Tay, Slaven Marusic:
A signal denoising algorithm based on overcomplete wavelet representations and Gaussian models. Signal Process. 87(5): 866-876 (2007) - [j17]Song Wang
An FFT-Based Method for Blind Identification of FIR SIMO Channels. IEEE Signal Process. Lett. 14(7): 437-440 (2007) - 2006
- [j16]David B. H. Tay, Nicholas G. Kingsbury, Marimuthu Palaniswami:
Orthonormal Hilbert-Pair of Wavelets With (Almost) Maximum Vanishing Moments. IEEE Signal Process. Lett. 13(9): 533-536 (2006) - [c27]Cong-Van Nguyen, David B. H. Tay, Guang Deng:
A Fast Watermarking System for H.264/AVC Video. APCCAS 2006: 81-84 - [c26]David B. H. Tay:
Least Squares Design of Orthonormal Wavelets via the Zero-Pinning Technique. ICASSP (3) 2006: 213-216 - [c25]David B. H. Tay:
ETHFB: a new class of even-length wavelet filters for Hilbert pair design. ISCAS 2006 - [c24]David B. H. Tay:
On the regularity of orthonormal wavelets designed via the zero-pinning technique. ISCAS 2006 - 2005
- [j15]David B. H. Tay:
EBFB: a new class of wavelet filters. IEEE Signal Process. Lett. 12(3): 206-209 (2005) - [j14]David B. H. Tay:
Zero-pinning the Bernstein polynomial: a simple design technique for orthonormal wavelets. IEEE Signal Process. Lett. 12(12): 835-838 (2005) - [c23]Slaven Marusic, Guang Deng, David B. H. Tay:
Image denoising using over-complete wavelet representations. EUSIPCO 2005: 1-4 - [c22]David B. H. Tay, Marimuthu Palaniswami
Hilbert pair of wavelets via the matching design technique [matched filters]. ISCAS (3) 2005: 2303-2306 - [c21]Slaven Marusic, David B. H. Tay, Guang Deng, Marimuthu Palaniswami:
Even-length biorthogonal wavelets for digital watermarking. ISSPA 2005: 17-20 - 2004
- [j13]David B. H. Tay, Marimuthu Palaniswami:
A novel approach to the design of the class of triplet halfband filterbanks. IEEE Trans. Circuits Syst. II Express Briefs 51-II(7): 378-383 (2004) - [c20]David B. H. Tay, Marimuthu Palaniswami:
Design of approximate Hilbert transform pair of wavelets with exact symmetry [filter bank design]. ICASSP (2) 2004: 921-924 - [c19]David B. H. Tay, Slaven Marusic, Marimuthu Palaniswami, Guang Deng:
Mathematical properties of the two-parameter family of 9/7 biorthogonal filters. ISCAS (3) 2004: 569-572 - 2003
- [c18]Slaven Marusic, David B. H. Tay, Guang Deng:
A parametric family of wavelet filters for diversity in watermarking application. ICASSP (3) 2003: 553-556 - [c17]Guang Deng, Hua Ye, Slaven Marusic, David B. H. Tay:
A method for predictive order adaptation based on model averaging. ICIP (2) 2003: 189-192 - [c16]Slaven Marusic, David B. H. Tay, Guang Deng, Marimuthu Palaniswami
A study of biorthogonal wavelets in digital watermarking. ICIP (2) 2003: 463-466 - [c15]David B. H. Tay:
A new class of even length wavelet filters. ISCAS (4) 2003: 149-152 - [c14]David B. H. Tay:
Audio signal processing via harmonic separation using variable Laguerre filters. ISCAS (3) 2003: 558-561 - [c13]David B. H. Tay:
Transforming 1-D even-length filterbanks into 2-D filterbanks. ISCAS (3) 2003: 710-713 - 2002
- [c12]David B. H. Tay:
Lifting based integer wavelet transform with binary coefficients. ISCAS (4) 2002: 17-20 - [c11]David B. H. Tay, Saman S. Abeysekera:
Design of variable Laguerre filters. ISCAS (4) 2002: 417-420 - 2001
- [j12]Yuanjin Zheng, Xiaoyan Tang, David B. H. Tay:
Decode to Channel Binary Block Codes Based on Neural Networks and Genetic Algorithm. Appl. Artif. Intell. 15(2): 141-159 (2001) - [j11]Y. Zheng, Z. Lin, David Ban Hock Tay:
Time-varying parametric system multiresolution identification by wavelets. Int. J. Syst. Sci. 32(6): 775-793 (2001) - [j10]Yuanjin Zheng, David B. H. Tay, Zhiping Lin:
Modeling general distributed nonstationary process and identifying time-varying autoregressive system by wavelets: theory and application. Signal Process. 81(9): 1823-1848 (2001) - [c10]David B. H. Tay:
A class of lifting based integer wavelet transform. ICIP (1) 2001: 602-605 - [c9]David B. H. Tay:
Least squares design of the class of triplet halfband filter banks. ISCAS (2) 2001: 481-484 - [c8]David B. H. Tay:
Balanced spatial and frequency localised 2-D nonseparable wavelet filters. ISCAS (2) 2001: 489-492 - 2000
- [j9]Yuanjin Zheng, David B. H. Tay, Lemin Li:
Signal extraction and power spectrum estimation using wavelet transform scale space filtering and Bayes shrinkage. Signal Process. 80(8): 1535-1549 (2000) - [j8]David B. H. Tay:
Rationalizing the coefficients of popular biorthogonal wavelet filters. IEEE Trans. Circuits Syst. Video Technol. 10(6): 998-1005 (2000) - [c7]David B. H. Tay:
Parametric Bernstein polynomial for least squares design of 3-D wavelet filter banks. ICASSP 2000: 488-491 - [c6]David B. H. Tay:
Families of binary coefficient biorthogonal wavelet filters. ISCAS 2000: 371-374 - [c5]David B. H. Tay:
Two stage, least squares design of biorthogonal filter banks. ISCAS 2000: 591-594
1990 – 1999
- 1999
- [j7]David B. H. Tay:
On the McClellan transformation of 1-D even-length linear phase filterbanks. IEEE Signal Process. Lett. 6(7): 183-185 (1999) - [j6]Farook Sattar
Enhancement of document images using multiresolution and fuzzy logic techniques. IEEE Signal Process. Lett. 6(10): 249-252 (1999) - [c4]David B. H. Tay:
Balanced-uncertainty optimized wavelet filters with prescribed regularity. ISCAS (3) 1999: 532-535 - 1998
- [j5]David B. H. Tay:
Design of perfect reconstruction filter banks using transformation of variables and refactorization. Int. J. Circuit Theory Appl. 26(1): 103-107 (1998) - [j4]David B. H. Tay:
Design of filter banks using transformation of variables: new results. IEEE Trans. Signal Process. 46(1): 203-209 (1998) - [c3]David B. H. Tay:
Analytical design of 3-D wavelet filter banks using the multivariate Bernstein polynomial. ICASSP 1998: 1789-1792 - [c2]Farook Sattar
On the multiresolution enhancement of document images using fuzzy logic approach. ICPR 1998: 939-941 - 1997
- [j3]David B. H. Tay:
Design of Filter Banks/Wavelets Using TROV: A Survey. Digit. Signal Process. 7(4): 229-238 (1997) - 1993
- [j2]David B. H. Tay, Nick G. Kingsbury:
Flexible design of multidimensional perfect reconstruction FIR 2-band filters using transformations of variables. IEEE Trans. Image Process. 2(4): 466-480 (1993) - 1992
- [j1]David B. H. Tay:
COPS: A Constraint Programming Approach to Resource-Limited Project Scheduling. Comput. J. 35(Additional-Papers): A237-A249 (1992) - [c1]David B. H. Tay, Nick G. Kingsbury:
Structures for multidimensional FIR perfect reconstruction filter banks. ICASSP 1992: 641-644
Coauthor Index
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