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ORCIDMichael D. Zoltowski
Michael David Zoltowski
Person information
- affiliation: Purdue University, Department of Electrical Engineering, West Lafayette, IN, USA
- affiliation (PhD 1986): University of Pennsylvania, Moore School of Electrical Engineering, Philadelphia, PA, USA
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2020 – today
- 2023
[c108]Michael D. Zoltowski, Mark R. Bell, Steve Rausch:
Esprit for Time-Delay Estimation for Radar Employing Stretch Processing with a Linear FM Chirp. ACSSC 2023: 1210-1214- 2022
- [c107]Michael D. Zoltowski, Mark R. Bell, Steve Rausch
, Patrik B. G. Dammert:
Combatting High Dynamic Range Issues and Extraneous Peaks in Bistatic Passive Radar Exploiting Digital Video Broadcast. IEEECONF 2022: 574-579 - [c106]Kyle Willstatter, Michael D. Zoltowski:
Raised-Cosine Frequency Domain Pulses for Doppler-Tolerant Radar Ambiguity Functions. IEEECONF 2022: 586-589 - [c105]Steven C. Rausch, Mark R. Bell, Michael D. Zoltowski, Patrik B. G. Dammert, T. Arthur Terlep:
Bistatic Detection of Weak Targets in the Presence of a Strong Direct-Path Signal. IEEECONF 2022: 590-596 - 2021
- [c104]Kyle Willstatter, Michael D. Zoltowski:
Use of the Gerchberg-Saxton Algorithm for Denoising of Constant-Envelope OFDM Signals. ACSCC 2021: 962-966 - [c103]Michael D. Zoltowski, Matthew Shuman, Murali Rangaswamy:
Virtual Waveform Diversity with Phase-Coded Radar Waveforms. ACSCC 2021: 1048-1052 - [c102]Kyle Willstatter, Michael D. Zoltowski:
Complementary Sequence Construction for Constant-Envelope OFDM Transmission Enabling Nonlinear Amplification and Clipping. MILCOM 2021: 390-395 - [c101]Muralidhar Rangaswamy, Matthew Shuman, Michael D. Zoltowski:
Overview of fully adaptive radar (FAR) for UAV applications. SSP 2021: 536-540
2010 – 2019
- 2019
- [c100]Kyle Willstatter, Michael D. Zoltowski:
Complementary Sequence Encoding for 1D and 2D Constant-modulus OFDM Transmission at Millimeter Wave Frequencies. ICASSP 2019: 4804-4808 - 2017
- [j57]Song Noh, Michael D. Zoltowski, David J. Love:
Multi-Resolution Codebook and Adaptive Beamforming Sequence Design for Millimeter Wave Beam Alignment. IEEE Trans. Wirel. Commun. 16(9): 5689-5701 (2017) - 2016
- [j56]Song Noh, Michael D. Zoltowski, David J. Love:
Training Sequence Design for Feedback Assisted Hybrid Beamforming in Massive MIMO Systems. IEEE Trans. Commun. 64(1): 187-200 (2016) - [j55]Ali A. Elghariani, Michael D. Zoltowski:
Low Complexity Detection Algorithms in Large-Scale MIMO Systems. IEEE Trans. Wirel. Commun. 15(3): 1689-1702 (2016) - 2015
- [c99]Ali A. Elghariani, Michael D. Zoltowski:
Successive interference cancellation for large-scale MIMO OFDM. EIT 2015: 657-661 - [c98]Song Noh, Michael D. Zoltowski, David J. Love:
Multi-Resolution Codebook Based Beamforming Sequence Design in Millimeter-Wave Systems. GLOBECOM 2015: 1-6 - [c97]Ali A. Elghariani, Michael D. Zoltowski:
A quadratic programming-based detector for large-scale MIMO systems. WCNC 2015: 387-392 - 2014
- [j54]Song Noh, Michael D. Zoltowski, Youngchul Sung, David James Love:
Pilot Beam Pattern Design for Channel Estimation in Massive MIMO Systems. IEEE J. Sel. Top. Signal Process. 8(5): 787-801 (2014) - [j53]Song Noh, Youngchul Sung, Michael D. Zoltowski:
A New Precoder Design for Blind Channel Estimation in MIMO-OFDM Systems. IEEE Trans. Wirel. Commun. 13(12): 7011-7024 (2014) - [c96]Song Noh, Michael D. Zoltowski, David James Love:
Downlink training codebook design and hybrid precoding in FDD massive MIMO systems. GLOBECOM 2014: 1631-1636 - [c95]Song Noh, Michael D. Zoltowski, Youngchul Sung, David J. Love:
Training signal design for channel estimation in massive MIMO systems. ICASSP 2014: 6499-6503 - [i2]Song Noh, Michael D. Zoltowski, David J. Love:
Training Sequence Design for Feedback Assisted Hybrid Beamforming in Massive MIMO Systems. CoRR abs/1407.1786 (2014) - 2013
- [c94]Song Noh, Michael D. Zoltowski:
Blind separation for precoding-based blind channel estimation for MIMO-OFDM systems. ACSSC 2013: 1263-1267 - [c93]Song Noh, Michael D. Zoltowski, Youngchul Sung, David J. Love:
Optimal pilot beam pattern design for massive MIMO systems. ACSSC 2013: 2072-2076 - [c92]Song Noh, Michael D. Zoltowski:
A new precoder design for precoding-based Blind channel estimation for MIMO-OFDM systems. GLOBECOM 2013: 3306-3311 - [c91]Tariq R. Qureshi, Michael D. Zoltowski:
High resolution MIMO radar with unitary waveform matrix scheduling. ICASSP 2013: 4110-4114 - [c90]Chulong Chen, Michael D. Zoltowski:
Hybrid variational Bayesian channel estimation, demodulation and decoding for OFDM under sparse multipath channels. ICASSP 2013: 4544-4548 - [i1]Song Noh, Michael D. Zoltowski, Youngchul Sung, David J. Love:
Pilot Beam Pattern Design for Channel Estimation in Massive MIMO Systems. CoRR abs/1309.7430 (2013) - 2012
- [c89]Michael D. Zoltowski:
Session WA4b: OFDM(A). ACSCC 2012: 1945-1946 - [c88]Ali A. Elghariani, Michael D. Zoltowski:
Detection of Code Spread OFDM based on 0-1 Integer Quadratic Programming. ACSCC 2012: 1962-1966 - [c87]Tariq R. Qureshi, Michael D. Zoltowski, A. Robert Calderbank:
A novel approach to Doppler compensation and estimation for multiple targets in MIMO radar with unitary waveform matrix scheduling. ICASSP 2012: 2473-2476 - [c86]Ali A. Elghariani, Michael D. Zoltowski:
Branch and Bound with M algorithm for near optimal MIMO detection with higher order QAM constellation. MILCOM 2012: 1-5 - [c85]Ali A. Elghariani, Michael D. Zoltowski:
Detection of Code Spread OFDM based on 0-1 Integer Quadratic Programming. MILCOM 2012: 1-6 - [c84]Chulong Chen, Michael D. Zoltowski:
Bayesian sparse channel estimation and tracking. SSP 2012: 472-475 - [c83]Ali A. Elghariani, Michael D. Zoltowski:
Branch and bound algorithm for code spread OFDM. SSP 2012: 844-847 - 2011
- [j52]Tariq R. Qureshi, Michael D. Zoltowski, A. Robert Calderbank, Ali Pezeshki:
Unitary design of radar waveform diversity sets. Digit. Signal Process. 21(5): 552-567 (2011) - [c82]Chulong Chen, Michael D. Zoltowski:
A modified compressed sampling matching pursuit algorithm on redundant dictionary and its application to sparse channel estimation on OFDM. ACSCC 2011: 1929-1934 - 2010
- [j51]Jianqi Wang, Seung Young Park, David James Love, Michael D. Zoltowski:
Throughput Delay Tradeoff for Wireless Multicast Using Hybrid-ARQ Protocols. IEEE Trans. Commun. 58(9): 2741-2751 (2010) - [c81]Muthanna Al-Mahmoud, Michael D. Zoltowski:
A novel approach to space-time-frequency coded MIMO-OFDM over frequency selective fading channels. ICASSP 2010: 2554-2557 - [c80]Tariq R. Qureshi, Michael D. Zoltowski, A. Robert Calderbank:
Target detection in MIMO radar in the presence of Doppler using complementary sequences. ICASSP 2010: 2766-2769 - [c79]Songnan Xi, Michael D. Zoltowski:
A practical complete MLE cooperative localization solution. ICASSP 2010: 3554-3557
2000 – 2009
- 2009
- [c78]Tariq R. Qureshi, Michael D. Zoltowski, A. Robert Calderbank:
Target detection in MIMO radar using Golay complementary sequences in the presence of Doppler. Allerton 2009: 1490-1493 - [c77]Songnan Xi, Michael D. Zoltowski:
Multiuser transmit beamforming for MIMO uplink with individual SINR targets. ICASSP 2009: 2393-2396 - [c76]Tariq R. Qureshi, Michael D. Zoltowski, A. Robert Calderbank:
A MIMO-OFDM channel estimation scheme utilizing complementary sequences. ICASSP 2009: 2677-2680 - 2008
- [j50]Jianqi Wang, David James Love, Michael D. Zoltowski:
User Selection With Zero-Forcing Beamforming Achieves the Asymptotically Optimal Sum Rate. IEEE Trans. Signal Process. 56(8-1): 3713-3726 (2008) - [j49]Louis L. Scharf, Edwin K. P. Chong, Michael D. Zoltowski, J. Scott Goldstein, Irving S. Reed:
Subspace Expansion and the Equivalence of Conjugate Direction and Multistage Wiener Filters. IEEE Trans. Signal Process. 56(10-2): 5013-5019 (2008) - [c75]Michael D. Zoltowski, Tariq R. Qureshi, A. Robert Calderbank, William Moran:
Unitary design of radar waveform diversity sets. ACSCC 2008: 26-30 - [c74]Jianqi Wang, Seung Young Park, David J. Love, Michael D. Zoltowski:
Throughput delay tradeoff for wireless multicast using hybrid-ARQ protocols. ACSCC 2008: 1436-1440 - [c73]Michael D. Zoltowski, Tariq R. Qureshi, A. Robert Calderbank:
Complementary codes based channel estimation for MIMO-OFDM systems. Allerton 2008: 133-138 - [c72]Muthanna Al-Mahmoud, Michael D. Zoltowski:
Performance evaluation of code-spread OFDM. Allerton 2008: 274-278 - [c71]Chad C. Lau, Michael D. Zoltowski:
Reduced dimension equalizer and interference canceller for MIMO-OFDM. Allerton 2008: 516-522 - [c70]Songnan Xi, Michael D. Zoltowski:
SINR-Max cooperative beamforming for multiuser MIMO-OFDM systems. ICASSP 2008: 3237-3240 - 2007
- [j48]Ernesto L. Santos, Michael D. Zoltowski, Muralidhar Rangaswamy:
Indirect Dominant Mode Rejection: A Solution to Low Sample Support Beamforming. IEEE Trans. Signal Process. 55(7-1): 3283-3293 (2007) - [j47]Peilu Ding, David James Love, Michael D. Zoltowski:
Multiple Antenna Broadcast Channels With Shape Feedback and Limited Feedback. IEEE Trans. Signal Process. 55(7-1): 3417-3428 (2007) - [c69]Jianqi Wang, David J. Love, Michael D. Zoltowski:
User Selection for the MIMO Broadcast Channel with a Fairness Constraint. ICASSP (3) 2007: 9-12 - 2006
- [j46]Peilu Ding, David James Love, Jianqi Wang, Michael D. Zoltowski:
Low Complexity Adaptive Design for Full-Diversity Full-Rate Space-Time Codes. IEEE Trans. Signal Process. 54(8): 3180-3189 (2006) - [j45]Christopher Pladdy, Serdar Özen, Sreenivasa M. Nerayanuru, Michael D. Zoltowski, Mark Fimoff:
Semiblind BLUE Channel Estimation With Applications to Digital Television. IEEE Trans. Veh. Technol. 55(6): 1812-1823 (2006) - [c68]Peilu Ding, David James Love, Michael D. Zoltowski:
Limited Feedback in Multiple Antenna Broadcast Channels. GLOBECOM 2006 - [c67]Peilu Ding, David J. Love, Michael D. Zoltowski:
Multiple Antenna Broadcast Channels With Limited Feedback. ICASSP (4) 2006: 25-28 - [c66]Ernesto L. Santos, Michael D. Zoltowski:
IDMR Beamforming Under Direction-Independent Sterring Vector Mismatch. ICASSP (4) 2006: 1017-1020 - [c65]Hyejung Jung, Michael D. Zoltowski:
Performance of Asynchronous Multiple Access MIMO OFDM Systems. ICASSP (5) 2006: 1133-1136 - [c64]Hyejung Jung, Michael D. Zoltowski:
Transmitter diversity in SDMA based asynchronous multi-user OFDM systems. WCNC 2006: 1994-1999 - 2005
- [j44]Geert Leus, Philippe Loubaton, Dirk T. M. Slock, Michael D. Zoltowski:
Editorial. EURASIP J. Adv. Signal Process. 2005(5): 601-603 (2005) - [j43]Michael D. Zoltowski:
Promoting signal processing [from The Editor]. IEEE Signal Process. Mag. 22(5): 2 (2005) - [j42]Xiaodong Cai, Georgios B. Giannakis, Michael D. Zoltowski:
Space-time spreading and block coding for correlated fading channels in the presence of interference. IEEE Trans. Commun. 53(3): 515-525 (2005) - [c63]Peilu Ding, David James Love, Michael D. Zoltowski:
On the sum rate of channel subspace feedback for multi-antenna broadcast channels. GLOBECOM 2005: 5 - [c62]Ernesto L. Santos, Michael D. Zoltowski:
Power spectrum estimation with low rank beamforming. GLOBECOM 2005: 5 - [c61]Jianqi Wang, Peilu Ding, Michael D. Zoltowski, David James Love:
Space-time coding and beamforming with partial channel state information. GLOBECOM 2005: 5 - [c60]Hyejung Jung, Michael D. Zoltowski:
Turbo multi-user receiver for asynchronous multi-user OFDM systems. ICASSP (3) 2005: 693-696 - [c59]Ernesto L. Santos, Michael D. Zoltowski:
Spatial power spectrum estimation based on a MVDR-MMSE-MUSIC hybrid beamformer. ICASSP (4) 2005: 809-812 - [c58]Guido Dietl, Jianqi Wang, Peilu Ding, Michael D. Zoltowski, David J. Love, Wolfgang Utschick:
Hybrid transmit waveform design based on beam-forming and orthogonal space-time block coding. ICASSP (5) 2005: 893-896 - [c57]Peilu Ding, Jianqi Wang, Guido Dietl, Michael D. Zoltowski, David J. Love:
Combining circulant space-time coding with IFFT/FFT and spreading. ICASSP (3) 2005: 1089-1092 - 2004
- [j41]Michael D. Zoltowski:
Positive reinforcement and constructive criticism - from the editor. IEEE Signal Process. Mag. 21(6): 2 (2004) - [j40]Tai-Ann Chen, Michael P. Fitz, Shengchao Li, Michael D. Zoltowski:
Two-dimensional space-time pilot-symbol assisted demodulation for frequency-nonselective Rayleigh fading channels. IEEE Trans. Commun. 52(6): 953-963 (2004) - [j39]Zhengyuan Xu, Ping Liu, Michael D. Zoltowski:
Diversity-assisted channel estimation and multiuser detection for downlink CDMA with long spreading codes. IEEE Trans. Signal Process. 52(1): 190-201 (2004) - [j38]Mark B. Breinholt, Hyejung Jung, Michael D. Zoltowski:
Space-time alignment for asynchronous interference suppression in MIMO OFDM cellular communications. Wirel. Commun. Mob. Comput. 4(7): 755-771 (2004) - [c56]Yifan Liang, Michael D. Zoltowski:
Adaptive spatial spectrum estimation via conjugate gradients and dominant mode rejection beamforming. GLOBECOM 2004: 2630-2634 - [c55]Ernesto L. Santos, Michael D. Zoltowski:
On low rank MVDR beamforming using the conjugate gradient algorithm. ICASSP (2) 2004: 173-176 - [c54]Hyejung Jung, Michael D. Zoltowski:
On the equalization of asynchronous multiuser OFDM signals in fading channels. ICASSP (4) 2004: 765-768 - [c53]Peilu Ding, Michael D. Zoltowski, Mark Fimoff:
Preconditioned conjugate gradient based fast computation of indirect decision feedback equalizer. ICASSP (4) 2004: 1001-1004 - [c52]William J. Hillery, Michael D. Zoltowski, Mark Fimoff:
Computation of a constrained decision feedback equalizer for reduced error propagation. WCNC 2004: 2438-2443 - 2003
- [c51]Anu Bhargava, Michael D. Zoltowski:
Sensors and Wireless Communication for Medical Care. DEXA Workshops 2003: 956-960 - [c50]Adam Tarr, Michael D. Zoltowski:
R-conjugate codes for multi-code CDMA. ICASSP (4) 2003: 145-148 - [c49]Mark B. Breinholt, Michael D. Zoltowski:
Space-time equalization and interference cancellation with convolutional coding for MIMO OFDM. ICASSP (4) 2003: 413-416 - [c48]Serdar Özen, Michael D. Zoltowski:
Time-of-arrival (TOA) estimation based structured sparse channel estimation algorithm, with applications to digital TV receivers. ICASSP (4) 2003: 481-484 - [c47]William J. Hillery, Michael D. Zoltowski, Mark Fimoff:
Decision feedback equalizer design for insensitivity to decision delay. ICASSP (4) 2003: 505-508 - [c46]Guido Dietl, Christian Mensing, Wolfgang Utschick, Josef A. Nossek, Michael D. Zoltowski:
Multi-stage MMSE decision feedback equalization for EDGE. ICASSP (4) 2003: 509-512 - 2002
- [j37]Samina Chowdhury, Michael D. Zoltowski, Jay Scott Goldstein:
Reduced-Rank Chip-Level MMSE Equalization for the 3G CDMA Forward Link with Code-Multiplexed Pilot. EURASIP J. Adv. Signal Process. 2002(8): 771-786 (2002) - [j36]Thomas P. Krauss, William J. Hillery, Michael D. Zoltowski:
Downlink Specific Linear Equalization for Frequency Selective CDMA Cellular Systems. J. VLSI Signal Process. 30(1-3): 143-161 (2002) - [c45]Tai-Ann Chen, Michael P. Fitz, Michael D. Zoltowski:
Space-time characteristics of frequency-flat Rayleigh fading channels and applications on MIMO systems. GLOBECOM 2002: 1915-1919 - [c44]Serdar Özen, Michael D. Zoltowski, Mark Fimoff:
A novel channel estimation method: Blending correlation and least-squares based approaches. ICASSP 2002: 2281-2284 - [c43]Mark B. Breinholt, Michael D. Zoltowski:
An open-loop cyclostationarity-based timing recovery algorithm for accelerated timing acquisition in frequency-selective channels. ICASSP 2002: 2293-2296 - [c42]Paula Cifuentes, Wilbur L. Myrick, Seema Sud, J. Scott Goldstein, Michael D. Zoltowski:
Reduced rank matrix multistage wiener filter with applications in MMSE joint multiuser detection for DS-CDMA. ICASSP 2002: 2605-2608 - [c41]Samina Chowdhury, Michael D. Zoltowski:
Adaptive MMSE equalization for wideband CDMA forward link with time-varying frequency selective channels. ICASSP 2002: 2609-2612 - [c40]Cherian P. Mathews, Michael D. Zoltowski:
Beamspace esprit for multi-source arrival angle estimation employing tapered windows. ICASSP 2002: 3009-3012 - 2001
- [j35]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) - [j34]Anand Kannan, Thomas P. Krauss, Michael D. Zoltowski:
Separation of cochannel signals under imperfect timing and carrier synchronization. IEEE Trans. Veh. Technol. 50(1): 79-96 (2001) - [c39]Seema Sud, Wilbur L. Myrick, J. Scott Goldstein, Michael D. Zoltowski:
Performance analysis of a reduced rank MMSE MUD for DS-CDMA. GLOBECOM 2001: 3158-3162 - [c38]Samina Chowdhury, Michael D. Zoltowski, J. Scott Goldstein:
Structured MMSE equalization for synchronous CDMA with sparse multipath channels. ICASSP 2001: 2113-2116 - [c37]Wilbur L. Myrick, J. Scott Goldstein, Michael D. Zoltowski:
Low complexity anti-jam space-time processing for GPS. ICASSP 2001: 2233-2236 - [c36]Kainam Thomas Wong, Guisheng Liao, Shun Keung Cheung, Michael D. Zoltowski, Javier Ramos, Pak-Chung Ching:
A "self-decorrelating" technique to enhance blind space-time RAKE receivers with single-user-type DS-CDMA detectors. ICC 2001: 1491-1495 - [c35]Michael D. Zoltowski, Mark B. Breinholt:
Space-time block codes using square Hankel data blocks. VTC Fall 2001: 372-374 - [c34]Guido Dietl, Michael D. Zoltowski, Michael Joham:
Reduced-rank equalization for EDGE via conjugate gradient implementation of multi-stage nested Wiener filter. VTC Fall 2001: 1912-1916 - [c33]Samina Chowdhury, Michael D. Zoltowski:
Application of conjugate gradient methods in MMSE equalization for the forward link of DS-CDMA. VTC Fall 2001: 2434-2438 - 2000
- [j33]Tai-Ann Chen, Michael P. Fitz, Wen-Yi Kuo, Michael D. Zoltowski, Jimm H. Grimm:
A space-time model for frequency nonselective Rayleigh fading channels with applications to space-time modems. IEEE J. Sel. Areas Commun. 18(7): 1175-1190 (2000) - [j32]Ufuk Tureli, Hui Liu, Michael D. Zoltowski:
OFDM blind carrier offset estimation: ESPRIT. IEEE Trans. Commun. 48(9): 1459-1461 (2000) - [j31]Javier Ramos, Michael D. Zoltowski, Hui Liu:
Low-complexity space-time processor for DS-CDMA communications. IEEE Trans. Signal Process. 48(1): 39-52 (2000) - [j30]Yung-Fang Chen, Michael D. Zoltowski, Javier Ramos, Chanchal Chatterjee, Vwani P. Roychowdhury:
Reduced-dimension blind space-time 2-D RAKE receivers for DS-CDMA communication systems. IEEE Trans. Signal Process. 48(6): 1521-1536 (2000) - [j29]Yung-Fang Chen, Michael D. Zoltowski:
Blind RLS based space-time adaptive 2-D RAKE receivers for DS-CDMA communication systems. IEEE Trans. Signal Process. 48(7): 2145-2150 (2000) - [j28]Michael D. Zoltowski, Kainam Thomas Wong:
ESPRIT-based 2-D direction finding with a sparse uniform array of electromagnetic vector sensors. IEEE Trans. Signal Process. 48(8): 2195-2204 (2000) - [j27]Michael D. Zoltowski, Kainam Thomas Wong:
Closed-form eigenstructure-based direction finding using arbitrary but identical subarrays on a sparse uniform Cartesian array grid. IEEE Trans. Signal Process. 48(8): 2205-2210 (2000) - [j26]Thomas P. Krauss, Michael D. Zoltowski:
Bilinear approach to multiuser second-order statistics-based blind channel estimation. IEEE Trans. Signal Process. 48(9): 2473-2486 (2000) - [c32]Wilbur L. Myrick, Michael D. Zoltowski, J. Scott Goldstein:
Exploiting conjugate symmetry in power minimization based pre-processing for GPS: reduced complexity and smoothness. ICASSP 2000: 2833-2836 - [c31]Thomas Hong Li, Michael D. Zoltowski:
Semi-blind channel identification for W-CDMA by orthogonal transmit diversity. ICASSP 2000: 2861-2864 - [c30]Thomas P. Krauss, Michael D. Zoltowski, Geert Leus:
Simple MMSE equalizers for CDMA downlink to restore chip sequence: comparison to zero-forcing and RAKE. ICASSP 2000: 2865-2868 - [c29]Thomas P. Krauss, Michael D. Zoltowski:
Chip-level MMSE equalization at the edge of the cell. WCNC 2000: 386-392 - [c28]Thomas Hong Li, Michael D. Zoltowski:
Semi-blind channel identification for W-CDMA by orthogonal transmit diversity. WCNC 2000: 660-663
1990 – 1999
- 1999
- [j25]Javier Ramos, Cherian P. Mathews, Michael D. Zoltowski:
FCA-ESPRIT: a closed-form 2-D angle estimation algorithm for filled circular arrays with arbitrary sampling lattices. IEEE Trans. Signal Process. 47(1): 213-217 (1999) - [j24]Kainam Thomas Wong, Michael D. Zoltowski:
Root-MUSIC-based azimuth-elevation angle-of-arrival estimation with uniformly spaced but arbitrarily oriented velocity hydrophones. IEEE Trans. Signal Process. 47(12): 3250-3260 (1999) - [c27]Louis R. Litwin Jr., Thomas J. Endres, Samir N. Hulyalkar, Michael D. Zoltowski:
The effects of finite bit precision for a VLSI implementation of the constant modulus algorithm. ICASSP 1999: 2013-2016 - [c26]Yung-Fang Chen, Michael D. Zoltowski:
Joint angle and delay estimation for DS-CDMA with application to reduced dimension space-time RAKE receivers. ICASSP 1999: 2933-2936 - [c25]Thomas P. Krauss, Michael D. Zoltowski:
Multiuser blind identification using a linear parameterization of the channel matrix and second-order statistics. ICASSP 1999: 2953-2956 - [c24]Louis R. Litwin Jr., Michael D. Zoltowski, Thomas J. Endres, Samir N. Hulyalkar:
Blended CMA: smooth, adaptive transfer from CMA to DD-LMS. WCNC 1999: 797-800 - [c23]Thomas Hong Li, Michael D. Zoltowski:
Semi-blind channel identification for third-generation wideband CDMA communication systems. WCNC 1999: 810-813 - [c22]Tai-Ann Chen, Michael P. Fitz, Michael D. Zoltowski, Wen-Yi Kuo:
Two dimensional space-time pilot symbol assisted demodulation over frequency nonselective Rayleigh fading channels. WCNC 1999: 1065-1069 - 1998
- [j23]Tan F. Wong, Tat M. Lok, James S. Lehnert, Michael D. Zoltowski:
A Linear Receiver for Direct-Sequence Spread-Spectrum Multiple-Access Systems with Antenna Arrays and Blind Adaptation. IEEE Trans. Inf. Theory 44(2): 659-676 (1998) - [c21]Kainam Thomas Wong, Michael D. Zoltowski:
Closed-form direction-finding with arbitrarily spaced electromagnetic vector-sensors at unknown locations. ICASSP 1998: 1949-1952 - [c20]Yung-Fang Chen, Michael D. Zoltowski:
Blind 2-D RAKE receivers based on RLS-type space-time adaptive filtering for DS-CDMA system. ICASSP 1998: 3173-3176 - 1997
- [j22]Javier Ramos, Michael D. Zoltowski, Hui Liu:
A low-complexity space-time RAKE receiver for DS-CDMA communications. IEEE Signal Process. Lett. 4(9): 262-265 (1997) - [j21]Chanchal Chatterjee, Vwani P. Roychowdhury, Javier Ramos, Michael D. Zoltowski:
Self-organizing algorithms for generalized eigen-decomposition. IEEE Trans. Neural Networks 8(6): 1518-1530 (1997) - [j20]Hui Liu, Michael D. Zoltowski:
Blind equalization in antenna array CDMA systems. IEEE Trans. Signal Process. 45(1): 161-172 (1997) - [c19]Rama Chellapa, Renato De Mori, Georgios B. Giannakis, Hans Georg Musmann, Hermann Ney, Mark J. T. Smith, John R. Treichler, Michael D. Zoltowski:
Expert Summaries. ICASSP 1997: 9-10 - [c18]Kainam Thomas Wong, Michael D. Zoltowski:
Closed-form multi-dimensional multi-invariance ESPRIT. ICASSP 1997: 3489-3492 - [c17]Timothy A. Thomas, Michael D. Zoltowski:
Novel receiver signal processing for interference cancellation and equalization in cellular TDMA communication. ICASSP 1997: 3881-3884 - [c16]Javier Ramos, Michael D. Zoltowski:
Blind 2D RAKE receiver for CDMA incorporating code synchronization and multipath time delay estimation. ICASSP 1997: 4025-4028 - [c15]Kainam Thomas Wong, Michael D. Zoltowski:
Sparse Array Spatial Diversity with Dual-Size Spatial Invariances to Mitigate Fading-Channel Effects. ICC (1) 1997: 142-146 - 1996
- [j19]Cherian P. Mathews, Martin Haardt, Michael D. Zoltowski:
Performance analysis of closed-form, ESPRIT based 2-D angle estimator for rectangular arrays. IEEE Signal Process. Lett. 3(4): 124-126 (1996) - [j18]Michael D. Zoltowski, Martin Haardt, Cherian P. Mathews:
Closed-form 2-D angle estimation with rectangular arrays in element space or beamspace via unitary ESPRIT. IEEE Trans. Signal Process. 44(2): 316-328 (1996) - [j17]Gregory M. Kautz, Michael D. Zoltowski:
Beamspace DOA estimation featuring multirate eigenvector processing. IEEE Trans. Signal Process. 44(7): 1765-1778 (1996) - [j16]Jerome A. Gansman, Michael D. Zoltowski, James V. Krogmeier:
Multidimensional multirate DOA estimation in beamspace. IEEE Trans. Signal Process. 44(11): 2780-2792 (1996) - [c14]Javier Ramos, Michael D. Zoltowski:
Closed-form 2D angle estimation with arbitrary sampling lattices over a circular aperture. ICASSP 1996: 2571-2574 - [c13]Michael D. Zoltowski, Javier Ramos:
Blind multi-user access interference cancellation for CDMA based PCS/cellular using antenna arrays. ICASSP 1996: 2730-2733 - [c12]Kainam Thomas Wong, Michael D. Zoltowski:
High accuracy 2D angle estimation with extended aperture vector sensor arrays. ICASSP 1996: 2789-2792 - [c11]Jan P. Allebach, Charles A. Bouman, Edward J. Coyle, Edward J. Delp, David A. Landgrebe, Anthony A. Maciejewski, Zygmunt Pizlo, Ness B. Shroff, Michael D. Zoltowski:
Video and image systems engineering education for the 21st century. ICIP (1) 1996: 449-452 - 1995
- [j15]Gregory M. Kautz, Michael D. Zoltowski:
Performance analysis of MUSIC employing conjugate symmetric beamformers. IEEE Trans. Signal Process. 43(3): 737-748 (1995) - [c10]Michael D. Zoltowski, Javier Ramos:
Blind adaptive beamforming for narrowband co-channel digital communications signals in a multipath environment. ICASSP 1995: 1745-1748 - [c9]Martin Haardt, Michael D. Zoltowski, Cherian P. Mathews, Josef A. Nossek:
2D unitary ESPRIT for efficient 2D parameter estimation. ICASSP 1995: 2096-2099 - 1994
- [j14]Michael D. Zoltowski, James V. Krogmeier, Gregory M. Kautz:
Novel multirate processing of beamspace noise eigenvectors. IEEE Signal Process. Lett. 1(5): 83-86 (1994) - [j13]David Lee Sherman, Michael D. Zoltowski:
Matrix-based higher order spectral analysis for three-wave coupling processes. IEEE Trans. Signal Process. 42(2): 332-348 (1994) - [j12]Cherian P. Mathews, Michael D. Zoltowski:
Eigenstructure techniques for 2-D angle estimation with uniform circular arrays. IEEE Trans. Signal Process. 42(9): 2395-2407 (1994) - [j11]Cherian P. Mathews, Michael D. Zoltowski:
Performance analysis of the UCA-ESPRIT algorithm for circular ring arrays. IEEE Trans. Signal Process. 42(9): 2535-2539 (1994) - [j10]Michael D. Zoltowski, Cherian P. Mathews:
Real-time frequency and 2-D angle estimation with sub-Nyquist spatio-temporal sampling. IEEE Trans. Signal Process. 42(10): 2781-2794 (1994) - [c8]Michael D. Zoltowski, Gregory M. Kautz:
Novel multirate processing of beamspace noise eigenvectors. ICASSP (4) 1994: 1-4 - [c7]Jan P. Allebach, Michael D. Zoltowski, Charles A. Bouman:
"Digital signal processing with applications: " a new and successful approach to undergraduate DSP education. ICASSP (6) 1994: 49-52 - 1993
- [j9]Michael D. Zoltowski, Gregory M. Kautz, Seth D. Silverstein:
Beamspace Root-MUSIC. IEEE Trans. Signal Process. 41(1): 344-364 (1993) - [j8]Michael D. Zoltowski, Seth D. Silverstein, Cherian P. Mathews:
Beamspace Root-MUSIC for minimum redundancy linear arrays. IEEE Trans. Signal Process. 41(7): 2502-2507 (1993) - [c6]Michael David Zoltowski, Cherian P. Mathews:
Real-time frequency and 2-D angle estimation with sub-Nyquist spatio-temporal sampling. ICASSP (4) 1993: 117-120 - 1992
- [c5]Michael D. Zoltowski, Cherian P. Mathews:
Direction finding with uniform circular arrays via phase mode excitation and beamspace root-MUSIC. ICASSP 1992: 245-248 - 1991
- [j7]Seth D. Silverstein, Michael D. Zoltowski:
The mathematical basis for element and fourier beamspace MUSIC and root-MUSIC algorithms. Digit. Signal Process. 1(3): 161-175 (1991) - [j6]Michael D. Zoltowski, Ta-Sung Lee:
Maximum likelihood based sensor array signal processing in the beamspace domain for low angle radar tracking. IEEE Trans. Signal Process. 39(3): 656-671 (1991) - [j5]Michael D. Zoltowski, Ta-Sung Lee:
Interference cancellation matrix beamforming for 3-D beamspace ML/MUSIC bearing estimation. IEEE Trans. Signal Process. 39(8): 1858-1876 (1991) - [c4]Michael D. Zoltowski, Gregory M. Kautz, Seth D. Silverstein:
Development, performance analysis, and experimental evaluation of beamspace Root-MUSIC. ICASSP 1991: 3049-3052 - 1990
- [c3]David Lee Sherman, Michael D. Zoltowski:
Frequency and biphase estimation of quadratically coupled sinusoids using cumulant projections. ICASSP 1990: 2373-2376
1980 – 1989
- 1989
- [j4]Michael D. Zoltowski, Demosthenis Stavrinides:
Sensor array signal processing via a procrustes rotations based eigenanalysis of the ESPRIT data pencil. IEEE Trans. Acoust. Speech Signal Process. 37(6): 832-861 (1989) - 1988
- [j3]Michael D. Zoltowski:
On the performance analysis of the MVDR beamformer in the presence of correlated interference. IEEE Trans. Acoust. Speech Signal Process. 36(6): 945-947 (1988) - [c2]Michael D. Zoltowski:
Novel techniques for estimation of array signal parameters based on matrix pencils, subspace rotations, and total least squares. ICASSP 1988: 2861-2864 - 1987
- [j2]Michael D. Zoltowski:
Solving the generalized eigenvalue problem with singular forms. Proc. IEEE 75(11): 1546-1548 (1987) - [j1]Michael D. Zoltowski, Fred Haber:
A multiply constrained minimum variance approach to multiple source parameter estimation. IEEE Trans. Acoust. Speech Signal Process. 35(9): 1358-1360 (1987) - [c1]Michael D. Zoltowski:
Solving the semi-definite generalized eigenvalue problem with application to ESPRIT. ICASSP 1987: 2316-2319
Coauthor Index
David J. Love
aka: David James Love
aka: David James Love
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