default search action
Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCIDPetr Tichavský
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2024
[c72]Petr Tichavský, Ondrej Straka:
Tensor Train Approximation of Multivariate Functions. EUSIPCO 2024: 2262-2266- 2023
- [j53]Petr Tichavský
, Ondrej Straka, Jindrich Duník:
Grid-Based Bayesian Filters With Functional Decomposition of Transient Density. IEEE Trans. Signal Process. 71: 92-104 (2023) - [c71]Petr Tichavský, Anh Huy Phan:
Tensor Chain Decomposition and Function Interpolation. SSP 2023: 557-561 - 2022
- [j52]Zbynek Koldovský, Václav Kautský, Petr Tichavský:
Double Nonstationarity: Blind Extraction of Independent Nonstationary Vector/Component From Nonstationary Mixtures - Algorithms. IEEE Trans. Signal Process. 70: 5102-5116 (2022) - [c70]Petr Tichavský, Ondrej Straka, Jindrich Duník:
Point-Mass Filter with Decomposition of Transient Density. ICASSP 2022: 5752-5756 - [i14]Anh-Huy Phan, Konstantin Sobolev, Dmitry Ermilov, Igor Vorona, Nikolay Kozyrskiy, Petr Tichavský, Andrzej Cichocki:
How to Train Unstable Looped Tensor Network. CoRR abs/2203.02617 (2022) - 2021
- [j51]Petr Tichavský, Anh-Huy Phan, Andrzej Cichocki:
Krylov-Levenberg-Marquardt Algorithm for Structured Tucker Tensor Decompositions. IEEE J. Sel. Top. Signal Process. 15(3): 550-559 (2021) - [j50]Zbynek Koldovský, Václav Kautský, Petr Tichavský, Jaroslav Cmejla, Jirí Málek:
Dynamic Independent Component/Vector Analysis: Time-Variant Linear Mixtures Separable by Time-Invariant Beamformers. IEEE Trans. Signal Process. 69: 2158-2173 (2021) - [c69]Anh-Huy Phan, Petr Tichavský, Konstantin Sobolev, Konstantin Sozykin, Dmitry Ermilov, Andrzej Cichocki:
Canonical Polyadic Tensor Decomposition With Low-Rank Factor Matrices. ICASSP 2021: 4690-4694 - [i13]Petr Tichavský:
Characterization of Decomposition of Matrix Multiplication Tensors. CoRR abs/2104.05323 (2021) - 2020
- [j49]Anh-Huy Phan, Andrzej Cichocki, André Uschmajew, Petr Tichavský, George Luta, Danilo P. Mandic:
Tensor Networks for Latent Variable Analysis: Novel Algorithms for Tensor Train Approximation. IEEE Trans. Neural Networks Learn. Syst. 31(11): 4622-4636 (2020) - [j48]Václav Kautský, Petr Tichavský, Zbynek Koldovský, Tülay Adali:
Performance Bounds for Complex-Valued Independent Vector Analysis. IEEE Trans. Signal Process. 68: 4258-4267 (2020) - [j47]Václav Kautský, Zbynek Koldovský, Petr Tichavský, Vicente Zarzoso:
Cramér-Rao Bounds for Complex-Valued Independent Component Extraction: Determined and Piecewise Determined Mixing Models. IEEE Trans. Signal Process. 68: 5230-5243 (2020) - [c68]Anh Huy Phan, Konstantin Sobolev, Konstantin Sozykin, Dmitry Ermilov, Julia Gusak, Petr Tichavský, Valeriy Glukhov, Ivan V. Oseledets, Andrzej Cichocki:
Stable Low-Rank Tensor Decomposition for Compression of Convolutional Neural Network. ECCV (29) 2020: 522-539 - [c67]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
Weighted Krylov-Levenberg-Marquardt Method for Canonical Polyadic Tensor Decomposition. ICASSP 2020: 3917-3921 - [i12]Anh Huy Phan, Konstantin Sobolev, Konstantin Sozykin, Dmitry Ermilov, Julia Gusak, Petr Tichavský, Valeriy Glukhov, Ivan V. Oseledets, Andrzej Cichocki:
Stable Low-rank Tensor Decomposition for Compression of Convolutional Neural Network. CoRR abs/2008.05441 (2020)
2010 – 2019
- 2019
- [j46]Petr Tichavský, Anh-Huy Phan, Andrzej Cichocki:
Sensitivity in Tensor Decomposition. IEEE Signal Process. Lett. 26(11): 1653-1657 (2019) - [j45]Zbynek Koldovský, Petr Tichavský:
Gradient Algorithms for Complex Non-Gaussian Independent Component/Vector Extraction, Question of Convergence. IEEE Trans. Signal Process. 67(4): 1050-1064 (2019) - [j44]Anh-Huy Phan, Petr Tichavský, Andrzej Cichocki:
Error Preserving Correction: A Method for CP Decomposition at a Target Error Bound. IEEE Trans. Signal Process. 67(5): 1175-1190 (2019) - [c66]Václav Kautský, Zbynek Koldovský, Petr Tichavský:
Performance Bound for Blind Extraction of Non-gaussian Complex-valued Vector Component from Gaussian Background. ICASSP 2019: 5287-5291 - 2018
- [c65]Zbynek Koldovský, Petr Tichavský, Nobutaka Ono:
Orthogonally-Constrained Extraction of Independent Non-Gaussian Component from Non-Gaussian Background Without ICA. LVA/ICA 2018: 161-170 - [c64]Petr Tichavský, Jirí Vomlel:
Representations of Bayesian networks by low-rank models. PGM 2018: 463-474 - [i11]Zbynek Koldovský, Petr Tichavský:
Gradient Algorithms for Complex Non-Gaussian Independent Component/Vector Extraction. CoRR abs/1803.10108 (2018) - 2017
- [j43]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
Numerical CP decomposition of some difficult tensors. J. Comput. Appl. Math. 317: 362-370 (2017) - [j42]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
Non-orthogonal tensor diagonalization. Signal Process. 138: 313-320 (2017) - [c63]Vaclav Kautsky, Zbynek Koldovský, Petr Tichavský:
Cramér-Rao-Induced bound for interference-to-signal ratio achievable through non-Gaussian independent component extraction. CAMSAP 2017: 1-4 - [c62]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
Under-Determined tensor diagonalization for decomposition of difficult tensors. CAMSAP 2017: 1-4 - [c61]Zbynek Koldovský, Petr Tichavský, Vaclav Kautsky:
Orthogonally constrained independent component extraction: Blind MPDR beamforming. EUSIPCO 2017: 1155-1159 - [c60]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Blind Source Separation of Single Channel Mixture Using Tensorization and Tensor Diagonalization. LVA/ICA 2017: 36-46 - [c59]Ondrej Sembera, Petr Tichavský, Zbynek Koldovský:
Adaptive Blind Separation of Instantaneous Linear Mixtures of Independent Sources. LVA/ICA 2017: 172-181 - [c58]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Partitioned Hierarchical alternating least squares algorithm for CP tensor decomposition. ICASSP 2017: 2542-2546 - [e2]Petr Tichavský, Massoud Babaie-Zadeh, Olivier J. J. Michel, Nadège Thirion-Moreau:
Latent Variable Analysis and Signal Separation - 13th International Conference, LVA/ICA 2017, Grenoble, France, February 21-23, 2017, Proceedings. Lecture Notes in Computer Science 10169, 2017, ISBN 978-3-319-53546-3 [contents] - [i10]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Best Rank-One Tensor Approximation and Parallel Update Algorithm for CPD. CoRR abs/1709.08336 (2017) - [i9]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Error Preserving Correction for CPD and Bounded-Norm CPD. CoRR abs/1709.08349 (2017) - 2016
- [j41]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
Partitioned Alternating Least Squares Technique for Canonical Polyadic Tensor Decomposition. IEEE Signal Process. Lett. 23(7): 993-997 (2016) - [c57]Zbynek Koldovský, Francesco Nesta, Petr Tichavský, Nobutaka Ono:
Frequency-domain blind speech separation using incomplete de-mixing transform. EUSIPCO 2016: 1663-1667 - [c56]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Rank-one tensor injection: A novel method for canonical polyadic tensor decomposition. ICASSP 2016: 2549-2553 - [c55]Kristina Naskovska, Martin Haardt, Petr Tichavský, Gilles Chabriel, Jean Barrère:
Extension of the semi-algebraic framework for approximate CP decompositions via non-symmetric simultaneous matrix diagonalization. ICASSP 2016: 2971-2975 - [c54]Ondrej Sembera, Petr Tichavský, Zbynek Koldovský:
Blind separation of underdetermined linear mixtures based on source nonstationarity and AR(1) modeling. ICASSP 2016: 4323-4327 - [i8]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
Numerical CP Decomposition of Some Difficult Tensors. CoRR abs/1603.01372 (2016) - [i7]Anh Huy Phan, Andrzej Cichocki, André Uschmajew, Petr Tichavský, Gheorghe Luta, Danilo P. Mandic:
Tensor Networks for Latent Variable Analysis. Part I: Algorithms for Tensor Train Decomposition. CoRR abs/1609.09230 (2016) - 2015
- [j40]Anh-Huy Phan, Petr Tichavský, Andrzej Cichocki:
Tensor Deflation for CANDECOMP/PARAFAC - Part I: Alternating Subspace Update Algorithm. IEEE Trans. Signal Process. 63(22): 5924-5938 (2015) - [j39]Anh-Huy Phan, Petr Tichavský, Andrzej Cichocki:
Tensor Deflation for CANDECOMP/PARAFAC - Part II: Initialization and Error Analysis. IEEE Trans. Signal Process. 63(22): 5939-5950 (2015) - [c53]Zbynek Koldovský, Petr Tichavský:
Sparse reconstruction of incomplete relative transfer function: Discrete and continuous time domain. EUSIPCO 2015: 394-398 - [c52]Petr Tichavský, Anh Huy Phan, Andrzej S. Cichocki:
Two-sided diagonalization of order-three tensors. EUSIPCO 2015: 993-997 - [c51]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Rank Splitting for CANDECOMP/PARAFAC. LVA/ICA 2015: 31-40 - [c50]Zbynek Koldovský, Jirí Málek, Petr Tichavský:
Improving Relative Transfer Function Estimates Using Second-Order Cone Programming. LVA/ICA 2015: 227-234 - [c49]Petr Tichavský, Ondrej Sembera, Zbynek Koldovský:
Blind Separation of Mixtures of Piecewise AR(1) Processes and Model Mismatch. LVA/ICA 2015: 304-311 - [c48]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Low rank tensor deconvolution. ICASSP 2015: 2169-2173 - [e1]Emmanuel Vincent, Arie Yeredor, Zbynek Koldovský, Petr Tichavský:
Latent Variable Analysis and Signal Separation - 12th International Conference, LVA/ICA 2015, Liberec, Czech Republic, August 25-28, 2015, Proceedings. Lecture Notes in Computer Science 9237, Springer 2015, ISBN 978-3-319-22481-7 [contents] - [i6]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Tensor Deflation for CANDECOMP/PARAFAC. Part 3: Rank Splitting. CoRR abs/1506.04971 (2015) - 2014
- [j38]Jirí Vomlel, Petr Tichavský:
Probabilistic inference with noisy-threshold models based on a CP tensor decomposition. Int. J. Approx. Reason. 55(4): 1072-1092 (2014) - [j37]Gilles Chabriel, Martin Kleinsteuber, Eric Moreau, Hao Shen, Petr Tichavský, Arie Yeredor:
Joint Matrices Decompositions and Blind Source Separation: A survey of methods, identification, and applications. IEEE Signal Process. Mag. 31(3): 34-43 (2014) - [c47]Zbynek Koldovský, Petr Tichavský:
A homotopy recursive-in-model-order algorithm for weighted Lasso. ICASSP 2014: 4151-4155 - [c46]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Deflation method for CANDECOMP/PARAFAC tensor decomposition. ICASSP 2014: 6736-6740 - [c45]Anh Huy Phan, Andrzej Cichocki, Petr Tichavský:
On Fast algorithms for orthogonal Tucker decomposition. ICASSP 2014: 6766-6770 - [c44]Zbynek Koldovský, Jirí Málek, Michael Muller, Petr Tichavský:
On semi-blind estimation of echo paths during double-talk based on nonstationarity. IWAENC 2014: 198-202 - [c43]Jirí Vomlel, Petr Tichavský:
An Approximate Tensor-Based Inference Method Applied to the Game of Minesweeper. Probabilistic Graphical Models 2014: 535-550 - [i5]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
Tensor diagonalization - a new tool for PARAFAC and block-term decomposition. CoRR abs/1402.1673 (2014) - [i4]Jirí Vomlel, Petr Tichavský:
On tensor rank of conditional probability tables in Bayesian networks. CoRR abs/1409.6287 (2014) - 2013
- [j36]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Low Complexity Damped Gauss-Newton Algorithms for CANDECOMP/PARAFAC. SIAM J. Matrix Anal. Appl. 34(1): 126-147 (2013) - [j35]Zbynek Koldovský, Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
A Two-Stage MMSE Beamformer for Underdetermined Signal Separation. IEEE Signal Process. Lett. 20(12): 1227-1230 (2013) - [j34]Zbynek Koldovský, Jirí Málek, Petr Tichavský, Francesco Nesta:
Semi-Blind Noise Extraction Using Partially Known Position of the Target Source. IEEE Trans. Speech Audio Process. 21(10): 2029-2041 (2013) - [j33]Petr Tichavský, Anh Huy Phan, Zbynek Koldovský:
Cramér-Rao-Induced Bounds for CANDECOMP/PARAFAC Tensor Decomposition. IEEE Trans. Signal Process. 61(8): 1986-1997 (2013) - [j32]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Fast Alternating LS Algorithms for High Order CANDECOMP/PARAFAC Tensor Factorizations. IEEE Trans. Signal Process. 61(19): 4834-4846 (2013) - [j31]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
CANDECOMP/PARAFAC Decomposition of High-Order Tensors Through Tensor Reshaping. IEEE Trans. Signal Process. 61(19): 4847-4860 (2013) - [c42]Zbynek Koldovský, Petr Tichavský, David Botka:
Noise reduction in dual-microphone mobile phones using a bank of pre-measured target-cancellation filters. ICASSP 2013: 679-683 - [c41]Anh Huy Phan, Andrzej Cichocki, Petr Tichavský, Rafal Zdunek, Sidney R. Lehky:
From basis components to complex structural patterns. ICASSP 2013: 3228-3232 - [c40]Anh Huy Phan, Andrzej Cichocki, Petr Tichavský, Gheorghe Luta, Austin J. Brockmeier:
Tensor completion throughmultiple Kronecker product decomposition. ICASSP 2013: 3233-3237 - [c39]Petr Tichavský, Anh Huy Phan, Andrzej Cichocki:
A further improvement of a fast damped Gauss-Newton algorithm for candecomp-parafac tensor decomposition. ICASSP 2013: 5964-5968 - [c38]Jirí Málek, Zbynek Koldovský, Sharon Gannot, Petr Tichavský:
Informed generalized sidelobe canceler utilizing sparsity of speech signals. MLSP 2013: 1-6 - [c37]Jirí Vomlel, Petr Tichavský:
Probabilistic Inference in BN2T Models by Weighted Model Counting. SCAI 2013: 275-284 - 2012
- [c36]Zbynek Koldovský, Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
A treatment of EEG data by underdetermined blind source separation for motor imagery classification. EUSIPCO 2012: 1484-1488 - [c35]Petr Tichavský, Zbynek Koldovský:
Algorithms for nonorthogonal approximate joint block-diagonalization. EUSIPCO 2012: 2094-2098 - [c34]Petr Tichavský, Arie Yeredor, Zbynek Koldovský:
On Computation of Approximate Joint Block-Diagonalization Using Ordinary AJD. LVA/ICA 2012: 163-171 - [c33]Anh Huy Phan, Andrzej Cichocki, Petr Tichavský, Zbynek Koldovský:
On Connection between the Convolutive and Ordinary Nonnegative Matrix Factorizations. LVA/ICA 2012: 288-296 - [c32]Anh Huy Phan, Andrzej Cichocki, Petr Tichavský, Danilo P. Mandic, Kiyotoshi Matsuoka:
On Revealing Replicating Structures in Multiway Data: A Novel Tensor Decomposition Approach. LVA/ICA 2012: 297-305 - [c31]Jirí Málek, Zbynek Koldovský, Petr Tichavský:
Semi-blind Source Separation Based on ICA and Overlapped Speech Detection. LVA/ICA 2012: 462-469 - [c30]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki, Zbynek Koldovský:
Low-rank blind nonnegative matrix deconvolution. ICASSP 2012: 1893-1896 - [i3]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
On Fast Computation of Gradients for CANDECOMP/PARAFAC Algorithms. CoRR abs/1204.1586 (2012) - [i2]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Low Complexity Damped Gauss-Newton Algorithms for CANDECOMP/PARAFAC. CoRR abs/1205.2584 (2012) - [i1]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
CANDECOMP/PARAFAC Decomposition of High-order Tensors Through Tensor Reshaping. CoRR abs/1211.3796 (2012) - 2011
- [j30]Petr Tichavský, Zbynek Koldovský:
Fast and accurate methods of independent component analysis: A Survey. Kybernetika 47(3): 426-438 (2011) - [j29]Zbynek Koldovský, Petr Tichavský:
Time-Domain Blind Separation of Audio Sources on the Basis of a Complete ICA Decomposition of an Observation Space. IEEE Trans. Speech Audio Process. 19(2): 406-416 (2011) - [j28]Petr Tichavský, Zbynek Koldovský:
Weight Adjusted Tensor Method for Blind Separation of Underdetermined Mixtures of Nonstationary Sources. IEEE Trans. Signal Process. 59(3): 1037-1047 (2011) - [c29]Petr Tichavský, Miroslav Zima, Vladimir Krajca:
Automatic Removal of Sparse Artifacts in Electroencephalogram. BIOSIGNALS 2011: 530-535 - [c28]Anh Huy Phan, Petr Tichavský, Andrzej Cichocki:
Fast damped gauss-newton algorithm for sparse and nonnegative tensor factorization. ICASSP 2011: 1988-1991 - [c27]Petr Tichavský, Honza Cernocký, Ales Procházka:
General chair's message. ICASSP 2011 - [c26]Petr Tichavský, Zbynek Koldovský:
Stability of CANDECOMP-PARAFAC tensor decomposition. ICASSP 2011: 4164-4167 - [c25]Zbynek Koldovský, Jirí Málek, Petr Tichavský:
Blind Speech Separation in Time-Domain Using Block-Toeplitz Structure of Reconstructed Signal Matrices. INTERSPEECH 2011: 561-564 - 2010
- [c24]Jirí Málek, Zbynek Koldovský, Petr Tichavský:
Adaptive Time-Domain Blind Separation of Speech Signals. LVA/ICA 2010: 9-16 - [c23]Zbynek Koldovský, Petr Tichavský, Jirí Málek:
Time-Domain Blind Audio Source Separation Method Producing Separating Filters of Generalized Feedforward Structure. LVA/ICA 2010: 17-24 - [c22]Zbynek Koldovský, Petr Tichavský, Jirí Málek:
Subband Blind Audio Source Separation Using a Time-Domain Algorithm and Tree-Structured QMF Filter Bank. LVA/ICA 2010: 25-32 - [c21]Petr Tichavský, Zbynek Koldovský:
Simultaneous search for all modes in multilinear models. ICASSP 2010: 4114-4117
2000 – 2009
- 2009
- [j27]Zbynek Koldovský, Jirí Málek, Petr Tichavský, Yannick Deville, Shahram Hosseini:
Blind separation of piecewise stationary non-Gaussian sources. Signal Process. 89(12): 2570-2584 (2009) - [j26]Petr Tichavský, Arie Yeredor:
Fast Approximate Joint Diagonalization Incorporating Weight Matrices. IEEE Trans. Signal Process. 57(3): 878-891 (2009) - [c20]Zbynek Koldovský, Petr Tichavský:
Comparison of independent component and independent subspace analysis algorithms. EUSIPCO 2009: 1447-1451 - [c19]Petr Tichavský, Arie Yeredor, Zbynek Koldovský:
A fast asymptotically efficient algorithm for blind separation of a linear mixture of block-wise stationary autoregressive processes. ICASSP 2009: 3133-3136 - 2008
- [j25]Petr Tichavský, Zbynek Koldovský, Arie Yeredor, Germán Gómez-Herrero, Eran Doron:
A Hybrid Technique for Blind Separation of Non-Gaussian and Time-Correlated Sources Using a Multicomponent Approach. IEEE Trans. Neural Networks 19(3): 421-430 (2008) - [j24]Petr Tichavský, Zbynek Koldovský, Erkki Oja:
Corrections to "Performance Analysis of the FastICA Algorithm and CramÉr-Rao Bounds for Linear Independent Component Analysis". IEEE Trans. Signal Process. 56(4): 1715-1716 (2008) - [c18]Zbynek Koldovský, Jirí Málek, Petr Tichavský, Yannick Deville, Shahram Hosseini:
Extension of EFICA algorithm for blind separation of piecewise stationary non Gaussian sources. ICASSP 2008: 1913-1916 - [c17]Petr Tichavský, Arie Yeredor, Jan Nielsen:
A fast approximate joint diagonalization algorithm using a criterion with a block diagonal weight matrix. ICASSP 2008: 3321-3324 - 2007
- [j23]Eran Doron, Arie Yeredor, Petr Tichavský:
Cramér-Rao-Induced Bound for Blind Separation of Stationary Parametric Gaussian Sources. IEEE Signal Process. Lett. 14(6): 417-420 (2007) - [c16]Germán Gómez-Herrero, Zbynek Koldovský, Petr Tichavský, Karen O. Egiazarian:
A fast algorithm for blind separation of non-Gaussian and time-correlated signals. EUSIPCO 2007: 1731-1735 - [c15]Petr Tichavský, Zbynek Koldovský, Erkki Oja:
Speed and Accuracy Enhancement of Linear ICA Techniques Using Rational Nonlinear Functions. ICA 2007: 285-292 - [c14]Zbynek Koldovský, Petr Tichavský:
Blind Instantaneous Noisy Mixture Separation with Best Interference-Plus-Noise Rejection. ICA 2007: 730-737 - [c13]Zbynek Koldovský, Petr Tichavský:
Time-domain blind audio source separation using advanced ICA methods. INTERSPEECH 2007: 846-849 - 2006
- [j22]Zbynek Koldovský, Petr Tichavský, Erkki Oja:
Efficient Variant of Algorithm FastICA for Independent Component Analysis Attaining the CramÉr-Rao Lower Bound. IEEE Trans. Neural Networks 17(5): 1265-1277 (2006) - [j21]Petr Tichavský, Zbynek Koldovský, Erkki Oja:
Performance analysis of the FastICA algorithm and Cramér-rao bounds for linear independent component analysis. IEEE Trans. Signal Process. 54(4): 1189-1203 (2006) - [j20]Kainam Thomas Wong, Petr Tichavský, Shun Keung Cheung, Guisheng Liao:
New pre-processing technique to enhance single-user-type DS-CDMA detectors in "blind" space-time rake receivers. IEEE Trans. Wirel. Commun. 5(10): 2932-2944 (2006) - [c12]Petr Tichavský, Eran Doron, Arie Yeredor, Jan Nielsen:
A computationally affordable implementation of an asymptotically optimal BSS algorithm for ar sources. EUSIPCO 2006: 1-5 - [c11]Petr Tichavský, Zbynek Koldovský, Eran Doron, Arie Yeredor, Germán Gómez-Herrero:
Blind signal separation by combining two ICA algorithms: HOS-based EFICA and time structure-based WASOBI. EUSIPCO 2006: 1-5 - [c10]Zbynek Koldovský, Petr Tichavský:
Methods of Fair Comparison of Performance of Linear ICA Techniques in Presence of Additive Noise. ICASSP (5) 2006: 873-876 - 2005
- [j19]Petr Tichavský, Kainam Thomas Wong:
Analytical derivation of finite-data-record performance of Wong-Lok-Lehnert-Zoltowski's DS-CDMA "Blind" space-time receiver. IEEE Trans. Signal Process. 53(4): 1485-1499 (2005) - [c9]Zbynek Koldovský, Petr Tichavský, Erkki Oja:
Cramer-Rao lower bound for linear independent component analysis. ICASSP (3) 2005: 581-584 - 2004
- [j18]Petr Tichavský, Zbynek Koldovský:
Optimal pairing of signal components separated by blind techniques. IEEE Signal Process. Lett. 11(2): 119-122 (2004) - [j17]Petr Tichavský, Kainam Thomas Wong:
Quasi-fluid-mechanics-based quasi-Bayesian Crame'r-Rao bounds for deformed towed-array direction finding. IEEE Trans. Signal Process. 52(1): 36-47 (2004) - 2003
- [c8]Kainam Thomas Wong, Petr Tichavský:
A reduced-complexity "blind" space-frequency algorithm for peer-to-peer MFSK-FFH-CDMA detection & co-channel interference suppression. GLOBECOM 2003: 2437-2441 - [c7]Petr Tichavský, Kainam Thomas Wong:
Finite-data-record performance/breakdown analysis of the "blind" space-time DS-CDMA RAKE-receiver of Wong-Lok-Lehnert-Zoltowski. ICC 2003: 3302-3306 - 2002
- [c6]Petr Tichavský, Kainam Thomas Wong:
New fluid-mechanics-based statistical models of a nominally linear towed-array's shape deformation. ICASSP 2002: 2841-2844 - 2001
- [j16]Miroslav Simandl, Jakub Královec, Petr Tichavský:
Filtering, predictive, and smoothing Cramér-Rao bounds for discrete-time nonlinear dynamic systems. Autom. 37(11): 1703-1716 (2001) - [j15]Petr Tichavský, Kainam Thomas Wong, Michael D. Zoltowski:
Near-field/far-field azimuth and elevation angle estimation using a single vector hydrophone. IEEE Trans. Signal Process. 49(11): 2498-2510 (2001) - 2000
- [c5]Petr Tichavský, Peter Händel:
Estimation and smoothing of instantaneous frequency of noisy narrow band signals. EUSIPCO 2000: 1-4
1990 – 1999
- 1999
- [j14]Petr Tichavský, Peter Händel:
Multicomponent polynomial phase signal analysis using a tracking algorithm. IEEE Trans. Signal Process. 47(5): 1390-1395 (1999) - [j13]Arye Nehorai, Petr Tichavský:
Cross-product algorithms for source tracking using an EM vector sensor. IEEE Trans. Signal Process. 47(10): 2863-2867 (1999) - [c4]Arye Nehorai, Petr Tichavský:
Cross-product algorithms for source tracking using an EM vector sensor. ICASSP 1999: 2781-2784 - 1998
- [j12]Petr Tichavský, Pavel Bocek:
Detection of influential points by convex hull volume minimization. Kybernetika 34(5): 515-534 (1998) - [j11]Ananthram Swami, Petr Tichavský:
Strong ergodicity conditions for the nth-order moment (cumulant) of multiple sinusoids. Signal Process. 65(2): 257-266 (1998) - [j10]Petr Tichavský, Carlos H. Muravchik, Arye Nehorai:
Posterior Cramer-Rao bounds for discrete-time nonlinear filtering. IEEE Trans. Signal Process. 46(5): 1386-1396 (1998) - 1997
- [j9]Petr Tichavský, Peter Händel:
Recursive estimation of frequencies and frequency rates of multiple cisoids in noise. Signal Process. 58(2): 117-129 (1997) - [j8]Peter Händel, Petr Tichavský:
Asymptotic noise gain of polynomial predictors. Signal Process. 62(2): 247-250 (1997) - [j7]Petr Tichavský, Arye Nehorai:
Comparative study of four adaptive frequency trackers. IEEE Trans. Signal Process. 45(6): 1473-1484 (1997) - [j6]Peter Händel, Petr Tichavský:
Frequency rate estimation at high SNR. IEEE Trans. Signal Process. 45(8): 2101-2105 (1997) - [c3]Petr Tichavský, Peter Händel:
Recursive estimation of linearly or harmonically modulated frequencies of multiple cisoids in noise. ICASSP 1997: 1925-1928 - 1996
- [c2]Mukund Padmanabhan, Petr Tichavský:
Extension of a hyperstable adaptive line enhancer for tracking of multiple cisoids. EUSIPCO 1996: 1-4 - 1995
- [j5]Petr Tichavský, Peter Händel:
Two algorithms for adaptive retrieval of slowly time-varying multiple cisoids in noise. IEEE Trans. Signal Process. 43(5): 1116-1127 (1995) - [j4]Petr Tichavský:
Posterior Cramer-Rao bound for adaptive harmonic retrieval. IEEE Trans. Signal Process. 43(5): 1299-1302 (1995) - [j3]Petr Tichavský, Ananthram Swami:
Statistical characterization of sample fourth-order cumulants of a noisy complex sinusoidal process. IEEE Trans. Signal Process. 43(7): 1620-1630 (1995) - 1993
- [j2]Petr Tichavský:
High-SNR asymptotics for signal-subspace methods in sinusoidal frequency estimation. IEEE Trans. Signal Process. 41(7): 2448-2460 (1993) - [c1]Petr Tichavský, Peter Handel:
Efficient tracking of multiple sinusoids with slowly varying parameters. ICASSP (3) 1993: 368-371
1980 – 1989
- 1988
- [j1]Petr Tichavský:
Estimating the angles of arrival of multiple plane waves. The statistical performance of the music and the minimum norm algorithms. Kybernetika 24(3): 196-206 (1988)
Coauthor Index
Andrzej Cichocki
aka: Andrzej S. Cichocki
aka: Andrzej S. Cichocki
[j52] [j50] [j48] [j47] [j45] [c66] [c65] [i11] [c63] [c61] [c59] [c57] [c54] [c53] [c50] [c49] [e1] [c47] [c44] [j35] [j34] [j33] [c42] [c38] [c36] [c35] [c34] [c33] [c31] [c30] [j30] [j29] [j28] [c26] [c25] [c24] [c23] [c22] [c21] [j27] [c20] [c19] [j25] [j24] [c18] [c16] [c15] [c14] [c13] [j22] [j21] [c11] [c10] [c9] [j18]
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from 
to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the 
of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from 
, 
, and 
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from 
.
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2025-01-21 00:19 CET by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by:
