default search action
Louis L. Scharf
Louis Scharf
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
- [j102]Gray Stanton
, David Ramírez
Multi-Channel Factor Analysis: Identifiability and Asymptotics. IEEE Trans. Signal Process. 72: 3562-3577 (2024) - [j101]David Ramírez
Passive Detection of a Random Signal Common to Multi-Sensor Reference and Surveillance Arrays. IEEE Trans. Veh. Technol. 73(7): 10106-10117 (2024) - [c96]Danilo Orlando, Giuseppe Ricci, Louis L. Scharf:
Adaptive Factor Analysis for Direction Finding in Colored Disturbance. SAM 2024: 1-5 - 2023
- [j100]Louis Scharf
Testing for Granger causality using a partial coherence statistic. Signal Process. 213: 109190 (2023) - [c95]Gray Stanton
Multi-Channel Factor Analysis for Temporally and Spatially Correlated Time Series. ACSSC 2023: 1339-1343 - [c94]Gray Stanton
Identifiability in Multi-Channel Factor Analysis. ACSSC 2023: 1344-1349 - [c93]Pranav U. Damale, Edwin K. P. Chong, Louis L. Scharf:
Wiener Filtering Without Covariance Matrix Inversion. ICASSP 2023: 1-5 - [c92]David Ramírez, Ignacio Santamaría, Louis L. Scharf:
Passive Detection of Rank-One Gaussian Signals for Known Channel Subspaces and Arbitrary Noise. ICASSP 2023: 1-5 - 2022
- [j99]Christopher Robbiano
Bayesian Learning of Occupancy Grids. IEEE Trans. Intell. Transp. Syst. 23(2): 1073-1084 (2022) - [j98]Danilo Orlando
A Unified Theory of Adaptive Subspace Detection Part I: Detector Designs. IEEE Trans. Signal Process. 70: 4925-4938 (2022) - [j97]Pia Addabbo
A Unified Theory of Adaptive Subspace Detection Part II: Numerical Examples. IEEE Trans. Signal Process. 70: 4939-4950 (2022) - [c91]Yuval Haitman
Grassmannian Dimensionality Reduction Using Triplet Margin Loss for Ume Classification of 3d Point Clouds. ICASSP 2022: 8982-8986 - 2021
- [j96]Ziv Yavo, Yuval Haitman
Matched Manifold Detection for Group-Invariant Registration and Classification of Images. IEEE Trans. Signal Process. 69: 4162-4176 (2021) - [c90]Yuval Haitman
Grassmannian Dimensionality Reduction for Optimized Universal Manifold Embedding Representation of 3D Point Clouds. ICCVW 2021: 4196-4204 - [i7]Louis L. Scharf, Dongliang Duan:
A Generalized Theory of Power. CoRR abs/2109.03907 (2021) - 2020
- [j95]Xiaofeng Ma, Michael Kirby
Self-organizing mappings on the Grassmannian with applications to data analysis in high dimensions. Neural Comput. Appl. 32(24): 18243-18254 (2020) - [j94]David Ramírez
Multi-Channel Factor Analysis With Common and Unique Factors. IEEE Trans. Signal Process. 68: 113-126 (2020) - [j93]Ronald W. Butler, Pooria Pakrooh
A MIMO Version of the Reed-Yu Detector and Its Connection to the Wilks Lambda and Hotelling $T^2$ Statistics. IEEE Trans. Signal Process. 68: 2925-2934 (2020) - [j92]Ignacio Santamaría
Scale-Invariant Subspace Detectors Based on First- and Second-Order Statistical Models. IEEE Trans. Signal Process. 68: 6432-6443 (2020)
2010 – 2019
- 2019
- [j91]Margaret Cheney
Detection of Backscattered Waves from a Target in Clutter from a Rotating Scatterer. SIAM J. Appl. Math. 79(5): 1916-1939 (2019) - [j90]Vaibhav Garg
Subspace Averaging and Order Determination for Source Enumeration. IEEE Trans. Signal Process. 67(11): 3028-3041 (2019) - [c89]Louis Scharf, L. Todd McWhorter, James Given, Margaret Cheney
General First-Order Framework for Passive Detection with Two Sensor Arrays. ACSSC 2019: 94-97 - [c88]Haitao Liu, Randy C. Paffenroth
Deep Kernel Coherence Encoder. ACSSC 2019: 2067-2071 - [c87]Sissi Xiaoxiao Wu, Anna Scaglione, Louis Scharf:
Decentralized Array Processing with Application to Cooperative Passive Radar. CAMSAP 2019: 51-55 - 2018
- [c86]David Ramírez
An alternating optimization algorithm for two-channel factor analysis with common and uncommon factors. ACSSC 2018: 1743-1747 - [c85]Louis Scharf, Yuan Wang:
Explorations of Temporal Causality Using Partial Coherence. ACSSC 2018: 1767-1771 - [c84]Ignacio Santamaría, David Ramírez
Subspace Averaging for Source Enumeration in Large Arrays. SSP 2018: 323-327 - 2017
- [j89]Dongliang Duan, Louis L. Scharf, Liuqing Yang
LD approach to asymptotically optimum sensor fusion. IET Commun. 11(5): 680-686 (2017) - [j88]Pooria Pakrooh, Louis L. Scharf, Margaret Cheney
Multipulse Adaptive Coherence for Detection in Wind Turbine Clutter. IEEE Trans. Aerosp. Electron. Syst. 53(6): 3091-3103 (2017) - [j87]Ignacio Santamaría, Louis L. Scharf, Javier Vía Rodríguez, Haonan Wang, Yuan Wang:
Passive Detection of Correlated Subspace Signals in Two MIMO Channels. IEEE Trans. Signal Process. 65(20): 5266-5280 (2017) - [c83]Pooria Pakrooh, Louis L. Scharf, Ronald W. Butler:
Distribution results for a multi-rank version of the Reed-Yu detector. ACSSC 2017: 783-784 - [c82]Louis L. Scharf, Pooria Pakrooh:
Multipulse subspace detectors. ACSSC 2017: 900-902 - [c81]Stephen D. Howard, William Moran, Pooria Pakrooh, Louis L. Scharf:
Hilbert space geometry of quadratic covariance bounds. ACSSC 2017: 1578-1581 - [c80]Ignacio Santamaría, Javier Vía, Michael Kirby, Tim Marrinan, Chris Peterson, Louis Scharf:
Constrained subspace estimation via convex optimization. EUSIPCO 2017: 1200-1204 - [c79]Ignacio Santamaría, Javier Vía, Louis L. Scharf, Yuan Wang:
A GLRT approach for detecting correlated signals in white noise in two MIMO channels. EUSIPCO 2017: 1395-1399 - 2016
- [j86]Vidarshana W. Bandara, Louis L. Scharf, Randy C. Paffenroth
Experimental recovery regions for robust PCA. Signal Process. 129: 25-32 (2016) - [j85]Nick Harold Klausner, Mahmood R. Azimi-Sadjadi, Louis L. Scharf:
Saddlepoint Approximations for Correlation Testing Among Multiple Gaussian Random Vectors. IEEE Signal Process. Lett. 23(5): 703-707 (2016) - [j84]Pooria Pakrooh, Louis L. Scharf, Ali Pezeshki
Threshold Effects in Parameter Estimation From Compressed Data. IEEE Trans. Signal Process. 64(9): 2345-2354 (2016) - [j83]Pooria Pakrooh, Louis L. Scharf, Ali Pezeshki
Modal Analysis Using Co-Prime Arrays. IEEE Trans. Signal Process. 64(9): 2429-2442 (2016) - [c78]Yuan Wang, Louis L. Scharf, Ignacio Santamaría, Haonan Wang:
Canonical correlations for target detection in a passive radar network. ACSSC 2016: 1159-1163 - [c77]Randy C. Paffenroth
Maximum likelihood identification of an information matrix under constraints in a corresponding graphical model. ACSSC 2016: 1359-1362 - [c76]Ignacio Santamaría, Louis L. Scharf, Douglas Cochran, Javier Vía:
Passive detection of rank-one signals with a multiantenna reference channel. EUSIPCO 2016: 140-144 - [c75]Ziv Yavo, Joseph M. Francos, Ignacio Santamaría, Louis L. Scharf:
Estimating the mean manifold of a deformable object from noisy observations. IVMSP 2016: 1-5 - [c74]Pooria Pakrooh, Louis L. Scharf, Mahmood R. Azimi-Sadjadi:
Underwater target classification using a pose-invariant matched manifold classifier. MLSP 2016: 1-5 - [c73]Ignacio Santamaría, Louis L. Scharf, Chris Peterson, Michael Kirby, Joseph M. Francos:
An order fitting rule for optimal subspace averaging. SSP 2016: 1-4 - [c72]Tegan Emerson
Reduced dimension estimators in matched subspace detection. WHISPERS 2016: 1-5 - 2015
- [j82]David Ramírez
Detection of Multivariate Cyclostationarity. IEEE Trans. Signal Process. 63(20): 5395-5408 (2015) - [j81]Pooria Pakrooh, Ali Pezeshki
Analysis of Fisher Information and the Cramér-Rao Bound for Nonlinear Parameter Estimation After Random Compression. IEEE Trans. Signal Process. 63(23): 6423-6428 (2015) - [c71]Pooria Pakrooh, Louis L. Scharf, Ali Pezeshki:
Performance breakdown in parameter estimation using co-prime arrays. ACSSC 2015: 367-369 - [c70]Pooria Pakrooh, Ali Pezeshki, Louis L. Scharf, Douglas Cochran, Stephen D. Howard:
Distribution of the Fisher information loss due to random compressed sensing. ACSSC 2015: 1487-1489 - [c69]David Ramírez
An asymptotic LMPI test for cyclostationarity detection with application to cognitive radio. ICASSP 2015: 5669-5673 - [i6]Pooria Pakrooh, Louis L. Scharf, Ali Pezeshki:
Modal Analysis Using Sparse and Co-prime Arrays. CoRR abs/1504.01258 (2015) - [i5]Pooria Pakrooh, Louis L. Scharf, Ali Pezeshki:
Threshold Effects in Parameter Estimation from Compressed Data. CoRR abs/1505.07431 (2015) - [i4]Zhenliang Zhang, Yuan Wang, Edwin K. P. Chong, Ali Pezeshki, Louis L. Scharf:
Subspace selection for projection maximization with matroid constraints. CoRR abs/1507.04822 (2015) - 2014
- [j80]Yuan Wang, Haonan Wang, Louis L. Scharf:
The geometry of fusion inspired channel design. Signal Process. 99: 136-146 (2014) - [j79]Entao Liu, Edwin K. P. Chong, Louis L. Scharf:
Greedy Adaptive Linear Compression in Signal-Plus-Noise Models. IEEE Trans. Inf. Theory 60(4): 2269-2280 (2014) - [j78]Yuan Wang, Haonan Wang, Louis L. Scharf:
Optimum Compression of a Noisy Measurement for Transmission Over a Noisy Channel. IEEE Trans. Signal Process. 62(5): 1279-1289 (2014) - [j77]Nick Harold Klausner, Mahmood R. Azimi-Sadjadi, Louis L. Scharf:
Detection of Spatially Correlated Time Series From a Network of Sensor Arrays. IEEE Trans. Signal Process. 62(6): 1396-1407 (2014) - [c68]Pooria Pakrooh, Ali Pezeshki, Louis L. Scharf:
Characterization of orthogonal subspaces for alias-free reconstruction of damped complex exponential modes in sparse arrays. ACSSC 2014: 97-100 - [c67]David Ramírez
A regularized maximum likelihood estimator for the period of a cyclostationary process. ACSSC 2014: 1972-1976 - [c66]Nick Harold Klausner, Mahmood R. Azimi-Sadjadi, Louis Scharf:
Detection of correlated time series in a network of sensor arrays. ICASSP 2014: 3002-3006 - [c65]David Ramírez
An asymptotic GLRT for the detection of cyclostationary signals. ICASSP 2014: 3415-3419 - 2013
- [j76]Randy C. Paffenroth
Space-Time Signal Processing for Distributed Pattern Detection in Sensor Networks. IEEE J. Sel. Top. Signal Process. 7(1): 38-49 (2013) - [j75]David Ramírez
Locally Most Powerful Invariant Tests for Correlation and Sphericity of Gaussian Vectors. IEEE Trans. Inf. Theory 59(4): 2128-2141 (2013) - [c64]Yuan Wang, Haonan Wang, Louis L. Scharf:
Scaled canonical coordinates for compression and transmission of noisy sensor measurements. ACSSC 2013: 409-413 - [c63]Luoyang Fang, Dongliang Duan, Liuqing Yang, Louis Scharf:
Error floor elimination for DFT-based frequency estimators. EUSIPCO 2013: 1-5 - [c62]Pooria Pakrooh, Ali Pezeshki, Louis L. Scharf:
Threshold effects in parameter estimation from compressed data. GlobalSIP 2013: 997-1000 - [c61]Dongliang Duan, Liuqing Yang, Louis L. Scharf, Shuguang Cui
Large deviation solution for cooperative spectrum sensing with diversity analysis. GLOBECOM 2013: 3200-3205 - [c60]Nick Harold Klausner, Mahmood R. Azimi-Sadjadi, Louis L. Scharf, Douglas Cochran:
Space-time coherence and its exact null distribution. ICASSP 2013: 3919-3923 - [c59]Yuan Wang, Haonan Wang, Louis L. Scharf:
Fusion inspired channel design. ICASSP 2013: 5392-5396 - [c58]Pooria Pakrooh, Louis L. Scharf, Ali Pezeshki, Yuejie Chi
Analysis of fisher information and the Cramer-Rao bound for nonlinear parameter estimation after compressed sensing. ICASSP 2013: 6630-6634 - [i3]Yuan Wang, Haonan Wang, Louis Scharf:
The Geometry of Fusion Inspired Channel Design. CoRR abs/1306.5323 (2013) - 2012
- [j74]Wenbing Dang, Louis L. Scharf:
Extensions to the Theory of Widely Linear Complex Kalman Filtering. IEEE Trans. Signal Process. 60(12): 6669-6674 (2012) - [c57]Dongliang Duan, Liuqing Yang, Louis L. Scharf:
The optimal fusion rule for cooperative spectrum sensing from a diversity perspective. ACSCC 2012: 1056-1060 - [c56]Entao Liu, Edwin K. P. Chong, Louis L. Scharf:
Greedy adaptive measurements with signal and measurement noise. ACSCC 2012: 1229-1232 - [c55]Dongliang Duan, Liuqing Yang, Louis L. Scharf:
Optimal local detection for sensor fusion by large deviation analysis. EUSIPCO 2012: 744-748 - [c54]David Ramírez
The locally most powerful invariant test for detecting a rank-P Gaussian signal in white noise. SAM 2012: 493-496 - [c53]John A. Gubner, Louis L. Scharf:
Resolving a variable number of hypotheses with multiple sensors. SSP 2012: 504-507 - [i2]David Ramírez, Javier Vía, Ignacio Santamaría, Louis L. Scharf:
Locally Most Powerful Invariant Tests for Correlation and Sphericity of Gaussian Vectors. CoRR abs/1204.5635 (2012) - 2011
- [j73]Visar Berisha
Editorial. Digit. Signal Process. 21(5): 551 (2011) - [j72]Ben A. Johnson
Detection-estimation of multi-rank Gaussian sources using expected likelihood. Digit. Signal Process. 21(5): 568-575 (2011) - [j71]Yuejie Chi
Sensitivity to Basis Mismatch in Compressed Sensing. IEEE Trans. Signal Process. 59(5): 2182-2195 (2011) - [j70]Tülay Adali, Peter J. Schreier
Complex-Valued Signal Processing: The Proper Way to Deal With Impropriety. IEEE Trans. Signal Process. 59(11): 5101-5125 (2011) - [c52]Louis L. Scharf, Edwin K. P. Chong
Sensitivity considerations in compressed sensing. ACSCC 2011: 744-748 - [c51]John A. Gubner, Louis L. Scharf, Edwin K. P. Chong
Optimization of exponential error rates for a suboptimum fusion rule in wireless sensor networks. ACSCC 2011: 1655-1658 - [c50]Dongliang Duan, Liuqing Yang, Louis L. Scharf:
Phasor state estimation from PMU measurements with bad data. CAMSAP 2011: 121-124 - [c49]Jun Tong
Linear precoding for time-varying MIMO channels with low-complexity receivers. ICASSP 2011: 3092-3095 - [c48]David Ramírez
Multiple-channel detection of a Gaussian time series over frequency-flat channels. ICASSP 2011: 3860-3863 - [i1]Wenbing Dang, Louis L. Scharf:
Widely Linear Kalman Filtering. CoRR abs/1105.5432 (2011) - 2010
- [j69]Ali Pezeshki, Louis L. Scharf, Edwin K. P. Chong
The geometry of linearly and quadratically constrained optimization problems for signal processing and communications. J. Frankl. Inst. 347(5): 818-835 (2010) - [j68]David Ramírez
Detection of spatially correlated Gaussian time series. IEEE Trans. Signal Process. 58(10): 5006-5015 (2010) - [c47]Francesco Bandiera
Adaptive radar detection: A subspace identification approach. CIP 2010: 243-246 - [c46]David Ramírez
Multiantenna spectrum sensing: Detection of spatial correlation among time-series with unknown spectra. ICASSP 2010: 2954-2957 - [c45]Yuejie Chi
Sensitivity to basis mismatch in compressed sensing. ICASSP 2010: 3930-3933
2000 – 2009
- 2009
- [c44]John A. Gubner, Edwin K. P. Chong
Aggregation and compression of distributed binary decisions in a wireless sensor network. CDC 2009: 909-913 - [c43]John A. Gubner, Louis L. Scharf, Edwin K. P. Chong
Exponential error bounds for binary detection using arbitrary binary sensors and an all-purpose fusion rule in wireless sensor networks. ICASSP 2009: 2781-2784 - [c42]Peter J. Schreier
On ICA of improper and noncircular sources. ICASSP 2009: 3561-3564 - 2008
- [j67]Ali Pezeshki
Eigenvalue Beamforming Using a Multirank MVDR Beamformer and Subspace Selection. IEEE Trans. Signal Process. 56(5): 1954-1967 (2008) - [j66]Louis L. Scharf, Edwin K. P. Chong
Subspace Expansion and the Equivalence of Conjugate Direction and Multistage Wiener Filters. IEEE Trans. Signal Process. 56(10-2): 5013-5019 (2008) - [j65]Zhifei Fan, Louis L. Scharf, John A. Gubner:
Analog Precoder and Equalizer Designs and their Geometry for Multichannel Communication. IEEE Trans. Wirel. Commun. 7(8): 2957-2963 (2008) - 2007
- [j64]Arnt-Børre Salberg, Alfred Hanssen
Robust Multidimensional Matched Subspace Classifiers Based on Weighted Least-Squares. IEEE Trans. Signal Process. 55(3): 873-880 (2007) - [j63]Francesco Bandiera
GLRT-Based Direction Detectors in Homogeneous Noise and Subspace Interference. IEEE Trans. Signal Process. 55(6-1): 2386-2394 (2007) - 2006
- [j62]Peter J. Schreier
Higher-order spectral analysis of complex signals. Signal Process. 86(11): 3321-3333 (2006) - [j61]Peter J. Schreier
A generalized likelihood ratio test for impropriety of complex signals. IEEE Signal Process. Lett. 13(7): 433-436 (2006) - [j60]David C. Farden, Louis L. Scharf:
A unified framework for the Sussman, Moyal, and Janssen formulas. IEEE Signal Process. Mag. 23(3): 124-125 (2006) - [j59]Peter J. Schreier
Canonical coordinates for transform coding of noisy sources. IEEE Trans. Signal Process. 54(1): 235-243 (2006) - [j58]Olivier Besson
Detection of an unknown rank-one component in white noise. IEEE Trans. Signal Process. 54(7): 2835-2839 (2006) - [j57]Olivier Besson
CFAR matched direction detector. IEEE Trans. Signal Process. 54(7): 2840-2844 (2006) - [j56]Olivier Besson
Adaptive Detection of a Signal Known Only to Lie on a Line in a Known Subspace, When Primary and Secondary Data are Partially Homogeneous. IEEE Trans. Signal Process. 54(12): 4698-4705 (2006) - [j55]Ali Pezeshki, Louis L. Scharf, John K. Thomas, Barry D. Van Veen:
Canonical Coordinates are the Right Coordinates for Low-Rank Gauss-Gauss Detection and Estimation. IEEE Trans. Signal Process. 54(12): 4817-4820 (2006) - [c41]Zhifei Fan, Louis Scharf:
Trade-off between Capacity and Diversity for Block Fading Sub-Channels. CISS 2006: 1341-1346 - [c40]Tor Arne Øigård, Louis L. Scharf, Alfred Hanssen:
Spectral correlations and synthesis of multidimensional fractional Brownian motion. EUSIPCO 2006: 1-5 - [c39]Francesco Bandiera, Olivier Besson
GLRT-Based Direction Detectors in Noise and Subspace Interference. ICASSP (3) 2006: 273-276 - [c38]Peter J. Schreier, Louis L. Scharf, Alfred Hanssen
A Statistical Test for Impropriety of Complex Random Signals. ICASSP (3) 2006: 796-799 - [c37]Hongya Ge, Ivars P. Kirsteins, Louis L. Scharf:
Data Dimension Reduction Using Krylov Subspaces: Making Adaptive Beamformers Robust to Model Order-Determination. ICASSP (4) 2006: 1001-1004 - [c36]Steven Thomas Smith, Louis L. Scharf, L. Todd McWhorter:
Intrinsic Quadratic Performance Bounds on Manifolds. ICASSP (5) 2006: 1013-1016 - [c35]Zhifei Fan, Louis Scharf:
The Approximation of Outage Probability and the Trade-off between Capacity and Diversity for the Frequency-Selective Channel. ISIT 2006: 1159-1163 - 2005
- [j54]Louis L. Scharf, Peter J. Schreier
The Hilbert space geometry of the Rihaczek distribution for stochastic analytic signals. IEEE Signal Process. Lett. 12(4): 297-300 (2005) - [j53]Peter J. Schreier
Detection and estimation of improper complex random signals. IEEE Trans. Inf. Theory 51(1): 306-312 (2005) - [j52]Ali Pezeshki, Louis L. Scharf, Mahmood R. Azimi-Sadjadi, Yingbo Hua:
Two-channel constrained least squares problems: solutions using power methods and connections with canonical coordinates. IEEE Trans. Signal Process. 53(1): 121-135 (2005) - [j51]Shawn Kraut, Louis L. Scharf, Ronald W. Butler:
The adaptive coherence estimator: a uniformly most-powerful-invariant adaptive detection statistic. IEEE Trans. Signal Process. 53(2-1): 427-438 (2005) - [j50]Olivier Besson
Matched direction detectors and estimators for array processing with subspace steering vector uncertainties. IEEE Trans. Signal Process. 53(12): 4453-4463 (2005) - [c34]Ali Pezeshki, Louis L. Scharf, Magnus Lundberg, Edwin K. P. Chong
Constrained Quadratic Minimizations for Signal Processing and Communications. CDC/ECC 2005: 7949-7953 - [c33]Zhi Tian, Hongya Ge, Louis L. Scharf:
Low-complexity multiuser detection and reduced-rank Wiener filters for ultra-wideband multiple access. ICASSP (3) 2005: 621-624 - [c32]Olivier Besson
Matched direction detectors. ICASSP (4) 2005: 977-980 - [c31]Peter J. Schreier, Louis L. Scharf, Alfred Hanssen
A geometric interpretation of the rihaczek time-frequency distribution for stochastic signals. ISIT 2005: 966-969 - 2004
- [j49]John A. Gubner, Louis L. Scharf:
Detection of Constrained Subspace Signals in Additive Infinite-Dimensional Interference and Noise. IEEE Trans. Inf. Theory 50(11): 2873-2879 (2004) - [c30]Louis L. Scharf, Edwin K. P. Chong
Algebraic equivalence of matrix conjugate direction and matrix multistage filters for estimating random vectors. CDC 2004: 4175-4179 - [c29]Alfred Hanssen, Yngvar Larsen, Louis L. Scharf:
Complex time-frequency and dual-frequency spectra of harmonizable processes. EUSIPCO 2004: 1577-1580 - [c28]Peter J. Schreier, Louis L. Scharf:
Polyspectra of analytic signals. ICASSP (2) 2004: 473-476 - 2003
- [j48]Ali Pezeshki, Mahmood R. Azimi-Sadjadi, Louis L. Scharf:
A network for recursive extraction of canonical coordinates. Neural Networks 16(5-6): 801-808 (2003) - [j47]Michael L. McCloud, Louis L. Scharf, Mahesh K. Varanasi:
Beamforming, diversity, and interference rejection for multiuser communication over fading channels with a receive antenna array. IEEE Trans. Commun. 51(1): 116-124 (2003) - [j46]Peter J. Schreier
Second-order analysis of improper complex random vectors and processes. IEEE Trans. Signal Process. 51(3): 714-725 (2003) - [j45]Alfred Hanssen
A theory of polyspectra for nonstationary stochastic processes. IEEE Trans. Signal Process. 51(5): 1243-1252 (2003) - [j44]Peter J. Schreier
Stochastic time-frequency analysis using the analytic signal: why the complementary distribution matters. IEEE Trans. Signal Process. 51(12): 3071-3079 (2003) - [c27]Peter J. Schreier, Louis L. Scharf:
The Karhunen-Loeve expansion of improper complex random signals with applications in detection. ICASSP (6) 2003: 717-720 - 2002
- [j43]Louis L. Scharf, Michael L. McCloud:
Blind adaptation of zero forcing projections and oblique pseudo-inverses for subspace detection and estimation when interference dominates noise. IEEE Trans. Signal Process. 50(12): 2938-2946 (2002) - [c26]Peter J. Schreier, Louis L. Scharf:
Canonical coordinates for reduced-rank estimation of improper complex random vectors. ICASSP 2002: 1153-1156 - [c25]Alfred Hanssen
Theory of higher-order Rihaczek spectra. ICASSP 2002: 1457-1460 - 2001
- [j42]Michael L. McCloud, Louis L. Scharf:
Asymptotic analysis of the MMSE multiuser detector for nonorthogonal multipulse modulation. IEEE Trans. Commun. 49(1): 24-30 (2001) - [j41]Shawn Kraut, Louis L. Scharf, L. Todd McWhorter:
Adaptive subspace detectors. IEEE Trans. Signal Process. 49(1): 1-16 (2001) - [j40]Louis L. Scharf, Benjamin Friedlander:
Toeplitz and Hankel kernels for estimating time-varying spectra of discrete-time random processes. IEEE Trans. Signal Process. 49(1): 179-189 (2001) - 2000
- [j39]Michael L. McCloud, Louis L. Scharf:
Interference estimation with applications to blind multiple-access communication over fading channels. IEEE Trans. Inf. Theory 46(3): 947-961 (2000) - [j38]Louis L. Scharf, Clifford T. Mullis:
Canonical coordinates and the geometry of inference, rate, and capacity. IEEE Trans. Signal Process. 48(3): 824-831 (2000) - [c24]John A. Gubner, Louis L. Scharf:
Detection of subspace waveforms in subspace interference and noise. ICASSP 2000: 309-312
1990 – 1999
- 1999
- [j37]Louis L. Scharf, Clifford T. Mullis:
Lag-windowing and multiple-data-windowing are roughly equivalent for smooth spectrum estimation. IEEE Trans. Signal Process. 47(3): 839-843 (1999) - [j36]Shawn Kraut, Louis L. Scharf:
The CFAR adaptive subspace detector is a scale-invariant GLRT. IEEE Trans. Signal Process. 47(9): 2538-2541 (1999) - 1998
- [j35]J. Scott Goldstein, Irving S. Reed, Louis L. Scharf:
A Multistage Representation of the Wiener Filter Based on Orthogonal Projections. IEEE Trans. Inf. Theory 44(7): 2943-2959 (1998) - [j34]L. Todd McWhorter, Louis L. Scharf:
Multiwindow estimators of correlation. IEEE Trans. Signal Process. 46(2): 440-448 (1998) - [j33]Louis L. Scharf, John K. Thomas:
Wiener filters in canonical coordinates for transform coding, filtering, and quantizing. IEEE Trans. Signal Process. 46(3): 647-654 (1998) - [c23]Shawn Kraut, Louis Scharf:
Performance evaluation of adaptive subspace detectors, based on stochastic representations. EUSIPCO 1998: 1-4 - [c22]Louis L. Scharf, Benjamin Friedlander, Clifford T. Mullis:
Time-varying spectrum estimators for continuous-time signals. ICASSP 1998: 2405-2408 - 1996
- [j32]Eric M. Dowling, Ronald D. DeGroat, Darel A. Linebarger, Louis L. Scharf, Marvin L. Vis:
Reduced polynomial order linear prediction. IEEE Signal Process. Lett. 3(3): 92-94 (1996) - [j31]Richard T. Behrens, Louis L. Scharf:
Corrections to "Signal Processing Applications of Oblique Projection Operators" [Correspondence]. IEEE Trans. Signal Process. 44(5): 1300 (1996) - [c21]John K. Thomas, Louis L. Scharf:
Canonical correlations and canonical time series. ICASSP 1996: 1637-1640 - [c20]Neng-Tsann Ueng, Louis L. Scharf:
Frames and orthonormal bases for variable windowed Fourier transforms. ICASSP 1996: 2594-2597 - 1995
- [j30]John K. Thomas, Louis L. Scharf, Donald W. Tufts:
The probability of a subspace swap in the SVD. IEEE Trans. Signal Process. 43(3): 730-736 (1995) - [j29]Anthony J. Thorpe, Louis L. Scharf:
Data adaptive rank-shaping methods for solving least squares problems. IEEE Trans. Signal Process. 43(7): 1591-1601 (1995) - [j28]L. Todd McWhorter, Louis L. Scharf:
Nonlinear maximum likelihood estimation of autoregressive time series. IEEE Trans. Signal Process. 43(12): 2909-2919 (1995) - [c19]Louis L. Scharf, John K. Thomas:
A data version of the Gauss-Markov theorem and its application to adaptive subspace splitting. ICASSP 1995: 2044-2047 - 1994
- [j27]Richard T. Behrens, Louis L. Scharf:
Signal processing applications of oblique projection operators. IEEE Trans. Signal Process. 42(6): 1413-1424 (1994) - [j26]Michael P. Clark, Louis L. Scharf:
Two-dimensional modal analysis based on maximum likelihood. IEEE Trans. Signal Process. 42(6): 1443-1452 (1994) - [j25]Stephen D. Voran, Louis L. Scharf:
Polar coordinate quantizers that minimize mean-squared error. IEEE Trans. Signal Process. 42(6): 1559-1563 (1994) - [j24]Louis L. Scharf, Benjamin Friedlander:
Matched subspace detectors. IEEE Trans. Signal Process. 42(8): 2146-2157 (1994) - [j23]Marvin L. Vis, Louis L. Scharf:
A note on recursive maximum likelihood for autoregressive modeling. IEEE Trans. Signal Process. 42(10): 2881-2883 (1994) - 1993
- [j22]Louis L. Scharf, L. Todd McWhorter:
Geometry of the Cramer-Rao bound. Signal Process. 31(3): 301-311 (1993) - [j21]L. Todd McWhorter, Louis L. Scharf:
Cramer-Rao bounds for deterministic modal analysis. IEEE Trans. Signal Process. 41(5): 1847-1866 (1993) - 1992
- [j20]Michael P. Clark, Louis L. Scharf:
On the complexity of IQML algorithms. IEEE Trans. Signal Process. 40(7): 1811-1813 (1992) - 1991
- [j19]Louis L. Scharf:
The SVD and reduced rank signal processing. Signal Process. 25(2): 113-133 (1991) - [j18]Wayne P. Burleson, Louis L. Scharf:
A VLSI design methodology for distributed arithmetic. J. VLSI Signal Process. 2(4): 235-252 (1991) - [c18]Michael P. Clark, Louis L. Scharf, Clifford T. Mullis:
Quadratic estimators of the frequency-wavenumber spectrum. ICASSP 1991: 2329-2332 - [c17]Wayne P. Burleson, Louis L. Scharf:
Input/Output Design for VLSI Array Architectures. VLSI 1991: 357-366 - 1990
- [j17]Cédric Demeure, Louis L. Scharf:
Sliding windows and lattice algorithms for computing QR factors in the least squares theory of linear prediction. IEEE Trans. Acoust. Speech Signal Process. 38(4): 721-725 (1990) - [j16]Barry D. Van Veen, Louis L. Scharf:
Estimation of structured covariance matrices and multiple window spectrum analysis. IEEE Trans. Acoust. Speech Signal Process. 38(8): 1467-1472 (1990)
1980 – 1989
- 1989
- [j15]William G. Bliss, Louis L. Scharf:
Algorithms and architectures for dynamic programming on Markov chains. IEEE Trans. Acoust. Speech Signal Process. 37(6): 900-912 (1989) - [j14]Christophe P. Rialan, Louis L. Scharf:
Fixed-point error analysis of the lattice and the Schur algorithms for the autocorrelation method of linear prediction. IEEE Trans. Acoust. Speech Signal Process. 37(12): 1950-1957 (1989) - [c16]Cédric Demeure, Louis L. Scharf:
Fast algorithms to QR factor circulant matrices. ICASSP 1989: 1123-1126 - [c15]Cédric Demeure, Louis L. Scharf:
Fast least squares solution of Vandermonde systems of equations. ICASSP 1989: 2198-2210 - 1988
- [j13]Christophe P. Rialan, Louis L. Scharf:
Fast algorithms for computing QR and Cholesky factors of Toeplitz operators. IEEE Trans. Acoust. Speech Signal Process. 36(11): 1740-1748 (1988) - [c14]Christophe P. Rialan, Louis L. Scharf:
Finite precision analysis of the lattice and the Schur algorithms for the autocorrelation method of linear prediction. ICASSP 1988: 2252-2255 - [c13]Cédric Demeure, Louis L. Scharf:
True lattice algorithms for square root solution of least squares linear prediction problems. ICASSP 1988: 2312-2315 - 1987
- [j12]Cédric Demeure, Louis L. Scharf:
Linear statistical models for stationary sequences and related algorithms for Cholesky factorization of Toeplitz matrices. IEEE Trans. Acoust. Speech Signal Process. 35(1): 29-42 (1987) - [j11]Louis L. Scharf, Donald W. Tufts:
Rank reduction for modeling stationary signals. IEEE Trans. Acoust. Speech Signal Process. 35(3): 350-355 (1987) - [j10]Louis L. Scharf, Barry D. Van Veen:
Low rank detectors for Gaussian random vectors. IEEE Trans. Acoust. Speech Signal Process. 35(11): 1579-1582 (1987) - [j9]Christophe P. Rialan, Louis L. Scharf:
Cellular architectures for implementing projection operators. IEEE Trans. Acoust. Speech Signal Process. 35(11): 1619-1627 (1987) - [c12]Christophe P. Rialan, Louis L. Scharf:
Fast algorithms for QR and Cholesky factors of Toeplitz operators. ICASSP 1987: 41-44 - [c11]Cédric Demeure, Louis L. Scharf:
Vector algorithms for computing QR and Cholesky factors of close-to-Toeplitz matrices. ICASSP 1987: 1851-1854 - [c10]P. J. Tourtier, Louis L. Scharf:
Maximum likelihood identification of correlation matrices for estimation of power spectra at arbitrary resolutions. ICASSP 1987: 2066-2069 - 1986
- [j8]Neil Judell, Louis L. Scharf:
A simple derivation of Lloyd's classical result for the optimum scalar quantizer. IEEE Trans. Inf. Theory 32(2): 326-328 (1986) - [j7]Ramdas Kumaresan, Louis L. Scharf, Arnab K. Shaw:
An algorithm for pole-zero modeling and spectral analysis. IEEE Trans. Acoust. Speech Signal Process. 34(3): 637-640 (1986) - [c9]William G. Bliss, J. Girard, J. Avery, M. Lightner, Louis Scharf:
A modular architecture for dynamic programming and maximum likelihood sequence estimation. ICASSP 1986: 357-360 - [c8]Stephen Marshall, Roy Chapman, Tariq S. Durrani, Louis L. Scharf:
Contour coding of images. ICASSP 1986: 1009-1012 - 1984
- [c7]Steven M. Kay, Louis L. Scharf:
Invariant detection of transient ARMA signals with unknown initial conditions. ICASSP 1984: 132-135 - 1982
- [c6]Louis L. Scharf, Claude Guéguen, Jean-Pierre Dugré, Nicolas Moreau:
Linear transformations and parametric spectrum analysis. ICASSP 1982: 1016-1020 - 1981
- [j6]Odile Macchi, Louis L. Scharf:
A dynamic programming algorithm for simultaneous phase estimation and data decoding on random-phase channels. IEEE Trans. Inf. Theory 27(5): 581-595 (1981) - [c5]Louis L. Scharf, Aloysius A. Beex, T. von Reyn:
Modal decomposition of covariance sequences for parametric spectrum analysis. ICASSP 1981: 512-517 - 1980
- [j5]Louis L. Scharf, Dennis D. Cox, C. Johan Masreliez:
Modulo-2 Pi phase sequence estimation (Corresp.). IEEE Trans. Inf. Theory 26(5): 615-620 (1980) - [c4]A. A. (Louis) Beex, Louis L. Scharf:
Covariance sequence approximation for recursive digital filter design. ICASSP 1980: 260-263 - [c3]Jean-Pierre Dugré, Louis L. Scharf, A. A. (Louis) Beex:
A note on the measurement of spectral flatness and the calculation of prediction error variances. ICASSP 1980: 607-611
1970 – 1979
- 1979
- [c2]Louis L. Scharf, James C. Luby:
Statistical design of ARMA filters. ICASSP 1979: 818-821 - 1977
- [j4]Louis L. Scharf, Loren W. Nolte:
Likelihood ratios for sequential hypothesis testing on Markov sequences. IEEE Trans. Inf. Theory 23(1): 101-109 (1977) - 1976
- [j3]Louis L. Scharf, Paul H. Moose:
Information measures and performance bounds for array processors. IEEE Trans. Inf. Theory 22(1): 11-21 (1976) - [c1]Louis L. Scharf, Joseph Perl:
Covariance-invariant signal processing. ICASSP 1976: 300-304 - 1973
- [j2]Louis L. Scharf:
Invariant Gauss-Gauss detection. IEEE Trans. Inf. Theory 19(4): 422-427 (1973) - 1971
- [j1]Louis L. Scharf, Dean W. Lytle:
Signal detection in Gaussian noise of unknown level: An invariance application. IEEE Trans. Inf. Theory 17(4): 404-411 (1971)
Coauthor Index
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 2024-10-21 20:31 CEST 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: