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ORCIDBenjamin Friedlander
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- affiliation: University of California, Santa Cruz, USA
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2020 – today
- 2023
[c94]Benjamin Friedlander:
Multi-Signal Ambiguity in Direction-of-Arrival Estimation. ACSSC 2023: 1259-1263- 2022
- [c93]Benjamin Friedlander:
Data-Based Estimation of the Cramer-Rao Lower Bound for Direction-of-Arrival Estimation. IEEECONF 2022: 101-105 - [c92]Benjamin Friedlander:
Degrees-of-Freedom and the Covariance Manifold of an Array. IEEECONF 2022: 965-969 - 2021
- [j109]Benjamin Friedlander
:
Comments on "Localization of Near-Field Sources Based on Linear Prediction and Oblique Projection Operator". IEEE Trans. Signal Process. 69: 6399-6400 (2021) - [c91]Benjamin Friedlander:
The Extended Manifold for Antenna Array Calibration. ACSCC 2021: 216-220 - [c90]Benjamin Friedlander:
The Mythical Uniform Linear Antenna Array. ACSCC 2021: 221-225 - 2020
- [j108]Benjamin Friedlander:
The Extended Manifold for Antenna Arrays. IEEE Trans. Signal Process. 68: 493-502 (2020) - [c89]Benjamin Friedlander:
On the Mutual Coupling Matrix in Array Signal Processing. ACSSC 2020: 1245-1249 - [c88]Benjamin Friedlander:
On the Cramer-Rao Bound for Sparse Linear Arrays. ACSSC 2020: 1255-1259
2010 – 2019
- 2019
- [j107]Benjamin Friedlander:
Polarization Sensitivity of Antenna Arrays. IEEE Trans. Signal Process. 67(1): 234-244 (2019) - [j106]Benjamin Friedlander:
Localization of Signals in the Near-Field of an Antenna Array. IEEE Trans. Signal Process. 67(15): 3885-3893 (2019) - [c87]Benjamin Friedlander:
Near-Field Localization Using Antenna Arrays. ACSSC 2019: 84-88 - [c86]Benjamin Friedlander:
The Extended Manifold for Diversely Polarized Antenna Arrays. ACSSC 2019: 1262-1266 - [c85]Benjamin Friedlander:
Antenna Array Calibration with Model Mismatch. ACSSC 2019: 1284-1288 - 2018
- [j105]Benjamin Friedlander:
Antenna Array Manifolds for High-Resolution Direction Finding. IEEE Trans. Signal Process. 66(4): 923-932 (2018) - [c84]Benjamin Friedlander:
Direction-of-Arrival Estimation with Diversely Polarized Sparse Arrays. ACSSC 2018: 875-879 - [c83]Benjamin Friedlander:
On the Number of Co-Channel Signals Resolvable by an Antenna Array. ACSSC 2018: 1093-1097 - [c82]Benjamin Friedlander:
Local Calibration of Antenna Arrays. ACSSC 2018: 1137-1141 - [c81]Benjamin Friedlander:
On the Polarization Sensitivity of Antenna Arrays. ACSSC 2018: 2184-2188 - 2017
- [c80]Benjamin Friedlander:
On the accuracy of array manifold models. ACSSC 2017: 1168-1172 - [c79]Benjamin Friedlander:
Array calibration in the presence of linear manifold distortion. ACSSC 2017: 1199-1203 - 2016
- [c78]Benjamin Friedlander:
Array self calibration using multiple data sets. ACSSC 2016: 674-678 - [c77]Benjamin Friedlander:
On the resolution of diversely polarized arrays. ACSSC 2016: 939-943 - [c76]Benjamin Friedlander:
High resolution geolocation with a multi-static radar. ACSSC 2016: 1149-1153 - 2015
- [c75]Benjamin Friedlander:
Multi-frequency self-calibration of antenna arrays. ACSSC 2015: 1645-1649 - 2014
- [c74]Benjamin Friedlander, Thomas Strohmer:
Bilinear compressed sensing for array self-calibration. ACSSC 2014: 363-367 - [c73]Benjamin Friedlander:
Array self-calibration with large initial errors. ACSSC 2014: 1169-1173 - [c72]Benjamin Friedlander:
Maximum likelihood estimation for geolocation in the presence of multipath. ACSSC 2014: 1174-1178 - 2013
- [j104]Benjamin Friedlander:
On the role of waveform diversity in MIMO radar. Digit. Signal Process. 23(3): 712-721 (2013) - [c71]Benjamin Friedlander:
High resolution Doppler and delay estimation. ACSSC 2013: 181-185 - [c70]Benjamin Friedlander:
A self-calibration technique for direction estimation with diversely polarized arrays. ACSSC 2013: 2145-2149 - 2012
- [j103]Alon Amar, Geert Leus, Benjamin Friedlander:
Emitter Localization Given Time Delay and Frequency Shift Measurements. IEEE Trans. Aerosp. Electron. Syst. 48(2): 1826-1837 (2012) - [j102]Benjamin Friedlander:
On Transmit Beamforming for MIMO Radar. IEEE Trans. Aerosp. Electron. Syst. 48(4): 3376-3388 (2012) - [j101]Benjamin Friedlander:
On Signal Models for MIMO Radar. IEEE Trans. Aerosp. Electron. Syst. 48(4): 3655-3660 (2012) - [j100]Benjamin Friedlander:
Effects of Model Mismatch in MIMO Radar. IEEE Trans. Signal Process. 60(4): 2071-2076 (2012) - [j99]Benjamin Friedlander:
An Efficient Parametric Technique for Doppler-Delay Estimation. IEEE Trans. Signal Process. 60(8): 3953-3963 (2012) - [i1]Thomas Strohmer, Benjamin Friedlander:
Analysis of Sparse MIMO Radar. CoRR abs/1203.2690 (2012) - 2011
- [j98]Meriam Rezk, Benjamin Friedlander:
On High Performance MIMO Communications with Imperfect Channel Knowledge. IEEE Trans. Wirel. Commun. 10(2): 602-613 (2011) - [c69]Benjamin Friedlander:
Session MP6b: Compressive sensing for array processing. ACSCC 2011: 733-734 - [c68]Thomas Strohmer, Benjamin Friedlander:
Some theoretical results for compressed MIMO radar. ACSCC 2011: 739-743 - [c67]Benjamin Friedlander:
On the role of waveform diversity in MIMO radar. ACSCC 2011: 1501-1505 - [c66]Benjamin Friedlander:
Session WA1b: MIMO radar and SAR. ACSCC 2011: 2072-2074 - [c65]Benjamin Friedlander:
On spatial processing in MIMO radar. ACSCC 2011: 2075-2079
2000 – 2009
- 2009
- [j97]Benjamin Friedlander:
On the Relationship Between MIMO and SIMO Radars. IEEE Trans. Signal Process. 57(1): 394-398 (2009) - 2008
- [j96]Benjamin Friedlander:
Communications through time-varying subspace channels. IEEE J. Sel. Areas Commun. 26(2): 338-347 (2008) - [c64]Benjamin Friedlander:
Virtual sensors for remote sensing: Algorithms and performance. ACSCC 2008: 843-847 - [c63]Benjamin Friedlander:
Estimating homeomorphic deformations of multi-dimensional signals - An accuracy analysis. ACSCC 2008: 1657-1661 - [c62]Benjamin Friedlander:
Session TP8a3: Space-time coding and decoding. ACSCC 2008: 1736-1738 - [c61]Meriam Rezk, Benjamin Friedlander:
Full-rate full-diversity differential MIMO. ACSCC 2008: 1739-1743 - [c60]Meriam Rezk, Benjamin Friedlander:
Joint channel-symbol estimation for high-performance differential MIMO. ACSCC 2008: 1744-1748 - 2007
- [j95]Yuanwei Jin, Benjamin Friedlander:
Authors' Reply to "Comments on 'Detection of Distributed Sources Using Sensor Arrays'". IEEE Trans. Signal Process. 55(6-1): 2759-2759 (2007) - [c59]T. Engin Tuncer, Temel Kaya Yasar, Benjamin Friedlander:
Partly-Filled Nonuniform Linear Arrays for DOA Estimation in Multipath Signals. ICASSP (2) 2007: 1053-1056 - 2006
- [j94]Benjamin Friedlander, S. Bose:
A cumulant-based method for the direct estimation of the spatial Wiener filter. Digit. Signal Process. 16(6): 695-711 (2006) - [j93]Benjamin Friedlander, Eli Pasternak:
A transparent repeater for digital communication signals. IEEE Trans. Veh. Technol. 55(4): 1171-1180 (2006) - 2005
- [j92]Yuanwei Jin, Benjamin Friedlander:
Reduced-rank adaptive detection of distributed sources using subarrays. IEEE Trans. Signal Process. 53(1): 13-25 (2005) - [j91]Benjamin Friedlander:
A subspace method for space time adaptive processing. IEEE Trans. Signal Process. 53(1): 74-82 (2005) - [j90]Yuanwei Jin, Benjamin Friedlander:
A CFAR adaptive subspace detector for second-order Gaussian signals. IEEE Trans. Signal Process. 53(3): 871-884 (2005) - 2004
- [j89]Yuanwei Jin, Benjamin Friedlander:
Detection of distributed sources using sensor arrays. IEEE Trans. Signal Process. 52(6): 1537-1548 (2004) - [j88]Cornelius van Rensburg, Benjamin Friedlander:
The performance of a -steering beamformer in correlated Rayleigh fading. IEEE Trans. Signal Process. 52(11): 3117-3125 (2004) - [j87]Benjamin Friedlander, Shimon Scherzer:
Beamforming versus transmit diversity in the downlink of a cellular communications system. IEEE Trans. Veh. Technol. 53(4): 1023-1034 (2004) - [j86]Cornelius van Rensburg, Benjamin Friedlander:
Transmit diversity for arrays in correlated Rayleigh fading. IEEE Trans. Veh. Technol. 53(6): 1726-1734 (2004) - 2001
- [j85]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
- [c58]Cornelius van Rensburg, Benjamin Friedlander:
Performance of antenna arrays in an urban multipath environment. GLOBECOM 2000: 157-161
1990 – 1999
- 1999
- [j84]Anthony J. Weiss, Benjamin Friedlander:
Channel estimation for DS-CDMA downlink with aperiodic spreading codes. IEEE Trans. Commun. 47(10): 1561-1569 (1999) - [j83]Anthony J. Weiss, Benjamin Friedlander:
Synchronous DS-CDMA downlink with frequency selective fading. IEEE Trans. Signal Process. 47(1): 158-167 (1999) - [j82]Joseph M. Francos, Benjamin Friedlander:
Optimal parameter selection in the phase differencing algorithm for 2-D phase estimation. IEEE Trans. Signal Process. 47(1): 273-279 (1999) - [j81]Daniel Yellin, Benjamin Friedlander:
Multichannel system identification and deconvolution: performance bounds. IEEE Trans. Signal Process. 47(5): 1410-1414 (1999) - [j80]Stuart Golden, Benjamin Friedlander:
Maximum likelihood estimation, analysis, and applications of exponential polynomial signals. IEEE Trans. Signal Process. 47(6): 1493-1501 (1999) - [j79]Daniel Yellin, Benjamin Friedlander:
An algorithm for dual-channel noiseless signal reconstruction and its performance analysis. IEEE Trans. Signal Process. 47(6): 1542-1558 (1999) - [j78]Joseph M. Francos, Benjamin Friedlander:
Parameter estimation of 2-D random amplitude polynomial-phase signals. IEEE Trans. Signal Process. 47(7): 1795-1810 (1999) - 1998
- [j77]Joseph M. Francos, Benjamin Friedlander:
Two-Dimensional Polynomial Phase Signals: Parameter Estimation and Bounds. Multidimens. Syst. Signal Process. 9(2): 173-205 (1998) - [j76]Norman Yuen, Benjamin Friedlander:
Performance analysis of higher order ESPRIT for localization of near-field sources. IEEE Trans. Signal Process. 46(3): 709-719 (1998) - [j75]Stuart Golden, Benjamin Friedlander:
A modification of the discrete polynomial transform. IEEE Trans. Signal Process. 46(5): 1452-1455 (1998) - [j74]Norman Yuen, Benjamin Friedlander:
Asymptotic performance analysis for signature waveform estimation in synchronous CDMA systems. IEEE Trans. Signal Process. 46(6): 1753-1757 (1998) - [j73]Joseph M. Francos, Benjamin Friedlander:
Parameter estimation of two-dimensional moving average random fields. IEEE Trans. Signal Process. 46(8): 2157-2165 (1998) - [j72]Stuart Golden, Benjamin Friedlander:
Estimation and statistical analysis of exponential polynomial signals. IEEE Trans. Signal Process. 46(11): 3127-3130 (1998) - [j71]Benjamin Friedlander, Anthony J. Weiss:
On the second-order statistics of the eigenvectors of sample covariance matrices. IEEE Trans. Signal Process. 46(11): 3136-3139 (1998) - [c57]Ariela Zeira, Benjamin Friedlander:
Robust adaptive subspace detectors for space time processing. ICASSP 1998: 1965-1968 - [c56]Louis L. Scharf, Benjamin Friedlander, Clifford T. Mullis:
Time-varying spectrum estimators for continuous-time signals. ICASSP 1998: 2405-2408 - 1997
- [j70]Anthony J. Weiss, Benjamin Friedlander:
Fading effects on antenna arrays in cellular communications. IEEE Trans. Signal Process. 45(5): 1109-1117 (1997) - [j69]Norman Yuen, Benjamin Friedlander:
DOA estimation in multipath: an approach using fourth-order cumulants. IEEE Trans. Signal Process. 45(5): 1253-1263 (1997) - [c55]Joseph M. Francos, Benjamin Friedlander:
Parameter estimation of two-dimensional moving average random fields: algorithms and bounds. ICASSP 1997: 3825-3828 - [c54]Ariela Zeira, Benjamin Friedlander:
On blind signal copy for polynomial phase signals. ICASSP 1997: 4045-4048 - 1996
- [j68]Anthony J. Weiss, Benjamin Friedlander:
Steering Vector and Signal Estimation for Uncalibrated Polarization Sensitive Arrays. Digit. Signal Process. 6(1): 37-50 (1996) - [j67]Anthony J. Weiss, Benjamin Friedlander:
Array processing using joint diagonalization. Signal Process. 50(3): 205-222 (1996) - [j66]Boaz Porat, Benjamin Friedlander:
Blind deconvolution of polynomial-phase signals using the high-order ambiguity function. Signal Process. 53(2-3): 149-163 (1996) - [j65]Benjamin Friedlander, Joseph M. Francos:
An estimation algorithm for 2-D polynomial phase signals. IEEE Trans. Image Process. 5(6): 1084-1087 (1996) - [j64]Boaz Porat, Benjamin Friedlander:
Asymptotic statistical analysis of the high-order ambiguity function for parameter estimation of polynomial-phase signals. IEEE Trans. Inf. Theory 42(3): 995-1001 (1996) - [j63]Benjamin Friedlander, Joseph M. Francos:
On the accuracy of estimating the parameters of a regular stationary process. IEEE Trans. Inf. Theory 42(4): 1202-1211 (1996) - [j62]Ariela Zeira, Benjamin Friedlander:
Direction of arrival estimation using parametric signal models. IEEE Trans. Signal Process. 44(2): 339-350 (1996) - [j61]Boaz Porat, Benjamin Friedlander:
Estimation of frequency in the presence of nonrandom interference. IEEE Trans. Signal Process. 44(3): 640-651 (1996) - [j60]Anthony J. Weiss, Benjamin Friedlander:
"Almost blind" steering vector estimation using second-order moments. IEEE Trans. Signal Process. 44(4): 1024-1027 (1996) - [j59]Benjamin Friedlander, Ariela Zeira:
Detection of broadband signals in frequency and time dispersive channels. IEEE Trans. Signal Process. 44(7): 1613-1622 (1996) - [j58]Norman Yuen, Benjamin Friedlander:
Asymptotic performance analysis of ESPRIT, higher order ESPRIT, and virtual ESPRIT algorithms. IEEE Trans. Signal Process. 44(10): 2537-2550 (1996) - [j57]Benjamin Friedlander, Joseph M. Francos:
Model based phase unwrapping of 2-D signals. IEEE Trans. Signal Process. 44(12): 2999-3007 (1996) - [c53]Joseph M. Francos, Benjamin Friedlander:
The polynomial phase differencing algorithm for 2-D phase unwrapping: performance analysis. ICASSP 1996: 2411-2414 - [c52]Benjamin Friedlander, Boaz Porat:
Accuracy analysis for off-line array calibration. ICASSP 1996: 2618-2621 - [c51]Ariela Zeira, Benjamin Friedlander:
Interpolated array minimum variance beamforming for correlated interference rejection. ICASSP 1996: 3165-3168 - 1995
- [j56]Ariela Zeira, Benjamin Friedlander:
On the performance of direction finding with time-varying arrays. Signal Process. 43(2): 133-147 (1995) - [j55]Anthony J. Weiss, Benjamin Friedlander, Petre Stoica:
Direction-of-arrival estimation using MODE with interpolated arrays. IEEE Trans. Signal Process. 43(1): 296-300 (1995) - [j54]Sanyogita Shamsunder, Georgios B. Giannakis, Benjamin Friedlander:
Estimating random amplitude polynomial phase signals: a cyclostationary approach. IEEE Trans. Signal Process. 43(2): 492-505 (1995) - [j53]Benjamin Friedlander, Joseph M. Francos:
Estimation of amplitude and phase parameters of multicomponent signals. IEEE Trans. Signal Process. 43(4): 917-926 (1995) - [j52]Ariela Zeira, Benjamin Friedlander:
Direction finding with time-varying arrays. IEEE Trans. Signal Process. 43(4): 927-937 (1995) - [j51]Joseph M. Francos, Benjamin Friedlander:
Bounds for estimation of multicomponent signals with random amplitude and deterministic phase. IEEE Trans. Signal Process. 43(5): 1161-1172 (1995) - [j50]Benjamin Friedlander, Anthony J. Weiss:
Direction finding using noise covariance modeling. IEEE Trans. Signal Process. 43(7): 1557-1567 (1995) - [j49]Shimon Peleg, Benjamin Friedlander:
The discrete polynomial-phase transform. IEEE Trans. Signal Process. 43(8): 1901-1914 (1995) - [j48]Benjamin Friedlander, Ariela Zeira:
Oversampled Gabor representation for transient signals. IEEE Trans. Signal Process. 43(9): 2088-2094 (1995) - [j47]Joseph M. Francos, Benjamin Friedlander:
Bounds for estimation of complex exponentials in unknown colored noise. IEEE Trans. Signal Process. 43(9): 2176-2185 (1995) - [c50]Ariela Zeira, Benjamin Friedlander:
Array processing using parametric signal models. ICASSP 1995: 1677-1680 - [c49]Boaz Porat, Benjamin Friedlander:
Accuracy analysis of estimation algorithms for parameters of multiple polynomial-phase signals. ICASSP 1995: 1800-1803 - [c48]Anthony J. Weiss, Benjamin Friedlander, David D. Feldman:
Analysis of signal estimation using uncalibrated arrays. ICASSP 1995: 1888-1891 - [c47]Benjamin Friedlander:
MAT2DSP-A tool for evaluating implementation complexity of signal processing algorithms. ICASSP 1995: 2841-2844 - [c46]Joseph M. Francos, Benjamin Friedlander:
The polynomial phase difference operator for modeling of nonhomogeneous images. ICIP 1995: 276-279 - 1994
- [j46]Benjamin Friedlander, Anthony J. Weiss:
Effects of model errors on waveform estimation using the MUSIC algorithm. IEEE Trans. Signal Process. 42(1): 147-155 (1994) - [j45]Anthony J. Weiss, Benjamin Friedlander:
Preprocessing for direction finding with minimal variance degradation. IEEE Trans. Signal Process. 42(6): 1478-1485 (1994) - [j44]Anthony J. Weiss, Benjamin Friedlander:
Effects of modeling errors on the resolution threshold of the MUSIC algorithm. IEEE Trans. Signal Process. 42(6): 1519-1526 (1994) - [j43]Benjamin Friedlander, Anthony J. Weiss:
The resolution threshold of a direction-finding algorithm for diversely polarized arrays. IEEE Trans. Signal Process. 42(7): 1719-1727 (1994) - [j42]Louis L. Scharf, Benjamin Friedlander:
Matched subspace detectors. IEEE Trans. Signal Process. 42(8): 2146-2157 (1994) - 1993
- [j41]Benjamin Friedlander:
The root-MUSIC algorithm for direction finding with interpolated arrays. Signal Process. 30(1): 15-29 (1993) - [j40]Boaz Porat, Benjamin Friedlander:
FIR system identification using fourth-order cumulants with application to channel equalization. IEEE Trans. Autom. Control. 38(9): 1394-1398 (1993) - [j39]Anthony J. Weiss, Benjamin Friedlander:
On the Cramer-Rao Bound for Direction Finding of Correlated Signals. IEEE Trans. Signal Process. 41(1): 495-498 (1993) - [j38]Benjamin Friedlander, Anthony J. Weiss:
Direction finding for wide-band signals using an interpolated array. IEEE Trans. Signal Process. 41(4): 1618-1634 (1993) - [j37]Anthony J. Weiss, Benjamin Friedlander:
Performance analysis of spatial smoothing with interpolated arrays. IEEE Trans. Signal Process. 41(5): 1881-1892 (1993) - [j36]Anthony J. Weiss, Benjamin Friedlander:
Direction finding for diversely polarized signals using polynomial rooting. IEEE Trans. Signal Process. 41(5): 1893-1905 (1993) - [j35]Shimon Peleg, Boaz Porat, Benjamin Friedlander:
The achievable accuracy in estimating the instantaneous phase and frequency of a constant amplitude signal. IEEE Trans. Signal Process. 41(6): 2216-2224 (1993) - [j34]Anthony J. Weiss, Benjamin Friedlander:
Analysis of a signal estimation algorithm for diversely polarized arrays. IEEE Trans. Signal Process. 41(8): 2628-2638 (1993) - [j33]Boaz Porat, Benjamin Friedlander:
On the generalized likelihood ratio test for a class of nonlinear detection problems. IEEE Trans. Signal Process. 41(11): 3186-3190 (1993) - [c45]Shimon Peleg, Benjamin Friedlander:
Signal estimation using the discrete polynominal transform. ICASSP (4) 1993: 424-427 - [c44]Anthony J. Weiss, Benjamin Friedlander:
The effects of preprocessing on direction of arrival estimation. ICASSP (4) 1993: 544-547 - [c43]Benjamin Friedlander, Anthony J. Weiss:
Effects of model errors on signal reconstruction using a sensor array. ICASSP (4) 1993: 552-555 - 1992
- [j32]Benjamin Friedlander, Anthony J. Weiss:
A direction finding algorithm for diversely polarized arrays. Digit. Signal Process. 2(3): 123-134 (1992) - [j31]Benjamin Friedlander, Boaz Porat:
Performance analysis of transient detectors based on a class of linear data transforms. IEEE Trans. Inf. Theory 38(2): 665-673 (1992) - [j30]Boaz Porat, Benjamin Friedlander:
Performance analysis of a class of transient detection algorithms-a unified framework. IEEE Trans. Signal Process. 40(10): 2536-2546 (1992) - [c42]Benjamin Friedlander:
On the sensitivity of covariance based direction finding to gain and phase perturbations. ICASSP 1992: 445-448 - [c41]Anthony J. Weiss, Benjamin Friedlander:
Fundamental limitations of diversely polarized antenna arrays. ICASSP 1992: 449-452 - [c40]Benjamin Friedlander, Anthony J. Weiss:
Performance analysis of wideband direction finding using interpolated arrays. ICASSP 1992: 457-460 - [c39]Boaz Porat, Benjamin Friedlander:
Performance analysis of a class of transient detection algorithms. ICASSP 1992: 473-476 - 1991
- [j29]Torsten Söderström, Petre Stoica, Benjamin Friedlander:
An indirect prediction error method for system identification. Autom. 27(1): 183-188 (1991) - [j28]Anthony J. Weiss, Benjamin Friedlander:
Array shape calibration using eigenstructure methods. Signal Process. 22(3): 251-258 (1991) - [j27]Boaz Porat, Benjamin Friedlander:
Blind equalization of digital communication channels using high-order moments. IEEE Trans. Signal Process. 39(2): 522-526 (1991) - [j26]Anthony J. Weiss, Benjamin Friedlander:
Performance analysis of diversely polarized antenna arrays. IEEE Trans. Signal Process. 39(7): 1589-1603 (1991) - [j25]Benjamin Friedlander, Anthony J. Weiss:
On the number of signals whose directions can be estimated by an array. IEEE Trans. Signal Process. 39(7): 1686-1689 (1991) - [j24]Boaz Porat, Benjamin Friedlander:
Direction finding algorithms based on high-order statistics. IEEE Trans. Signal Process. 39(9): 2016-2024 (1991) - [c38]Anthony J. Weiss, Benjamin Friedlander:
Performance analysis of spatial smoothing with interpolated arrays. ICASSP 1991: 1377-1380 - 1990
- [j23]Boaz Porat, Benjamin Friedlander:
A Frequency Domain Algorithm for Multiframe Detection and Estimation of Dim Targets. IEEE Trans. Pattern Anal. Mach. Intell. 12(4): 398-401 (1990) - [j22]Benjamin Friedlander:
A sensitivity analysis of the MUSIC algorithm. IEEE Trans. Acoust. Speech Signal Process. 38(10): 1740-1751 (1990) - [c37]Boaz Porat, Benjamin Friedlander:
Direction finding algorithms based on high-order statistics. ICASSP 1990: 2675-2678 - [c36]Benjamin Friedlander:
Direction finding using an interpolated array. ICASSP 1990: 2951-2954
1980 – 1989
- 1989
- [j21]Benjamin Friedlander, Boaz Porat:
Detection of transient signals by the Gabor representation. IEEE Trans. Acoust. Speech Signal Process. 37(2): 169-180 (1989) - [j20]Petre Stoica, Randolph L. Moses, Benjamin Friedlander, Torsten Söderström:
Maximum likelihood estimation of the parameters of multiple sinusoids from noisy measurements. IEEE Trans. Acoust. Speech Signal Process. 37(3): 378-392 (1989) - [j19]Benjamin Friedlander, Boaz Porat:
Performance analysis of a null-steering algorithm based on direction-of-arrival estimation. IEEE Trans. Acoust. Speech Signal Process. 37(4): 461-466 (1989) - [j18]Benjamin Friedlander, Boaz Porat:
Adaptive IIR algorithms based on high-order statistics. IEEE Trans. Acoust. Speech Signal Process. 37(4): 485-495 (1989) - [j17]Anthony J. Weiss, Benjamin Friedlander:
Array shape calibration using sources in unknown locations-a maximum likelihood approach. IEEE Trans. Acoust. Speech Signal Process. 37(12): 1958-1966 (1989) - [c35]Boaz Porat, Benjamin Friedlander:
Blind adaptive equalization of digital communication channels using high-order moments. ICASSP 1989: 1372-1375 - [c34]Benjamin Friedlander, Boaz Porat:
Algorithms for optimal estimation of the parameters of non-Gaussian processes from high-order moments. ICASSP 1989: 2314-2317 - [c33]Benjamin Friedlander:
A sensitivity analysis of the MUSIC algorithm. ICASSP 1989: 2811-2814 - 1988
- [j16]Boaz Porat, Benjamin Friedlander:
Analysis of the asymptotic relative efficiency of the MUSIC algorithm. IEEE Trans. Acoust. Speech Signal Process. 36(4): 532-544 (1988) - [j15]Benjamin Friedlander:
A signal subspace method for adaptive interference cancellation. IEEE Trans. Acoust. Speech Signal Process. 36(12): 1835-1845 (1988) - [c32]Boaz Porat, Benjamin Friedlander:
On the asymptotic relative efficiency of the MUSIC algorithm. ICASSP 1988: 2376-2379 - [c31]Benjamin Friedlander, Boaz Porat:
Performance analysis of MA parameter estimation algorithms based on high-order moments. ICASSP 1988: 2412-2415 - [c30]Anthony J. Weiss, Benjamin Friedlander:
Array shape calibration using sources in unknown locations-a maximum likelihood approach. ICASSP 1988: 2670-2673 - [c29]Benjamin Friedlander, Anthony J. Weiss:
Eigenstructure methods for direction finding with sensor gain and phase uncertainties. ICASSP 1988: 2681-2684 - [c28]Khosrow Lashkari, Benjamin Friedlander, J. Abel, B. McQuiston:
Classification of transient signals [acoustic signals]. ICASSP 1988: 2689-2692 - 1987
- [j14]Boaz Porat, Benjamin Friedlander:
On the accuracy of the Kumaresan-Tufts method for estimating complex damped exponentials. IEEE Trans. Acoust. Speech Signal Process. 35(2): 231-235 (1987) - [c27]Benjamin Friedlander:
Block Processing on a Programmable Systolic Array. COMPCON 1987: 184-187 - [c26]Amnon Shefi, Charles W. Therrien, Donald E. Kirk, Rigoberto Saez, Benjamin Friedlander:
Passive multipath target tracking in inhomogeneous acoustic medium. ICASSP 1987: 463-466 - [c25]Boaz Porat, Benjamin Friedlander:
A frequency domain approach to multiframe detection and estimation of dim targets. ICASSP 1987: 591-594 - [c24]Benjamin Friedlander, Boaz Porat:
An accuracy analysis of the Kumaresan-Tufts method for estimating complex damped exponentials. ICASSP 1987: 665-668 - [c23]Benjamin Friedlander, Boaz Porat:
Detection of transient signals by the Gabor representation. ICASSP 1987: 1692-1695 - [c22]Randolph L. Moses, Peter Stoica, Benjamin Friedlander, Torsten Söderström:
An efficient linear method for ARMA spectral estimation. ICASSP 1987: 2077-2080 - 1986
- [j13]Boaz Porat, Benjamin Friedlander:
On the estimation of variance for autoregressive and moving average processes. IEEE Trans. Inf. Theory 32(1): 120-125 (1986) - [j12]Boaz Porat, Benjamin Friedlander:
Computation of the exact information matrix of Gaussian time series with stationary random components. IEEE Trans. Acoust. Speech Signal Process. 34(1): 118-130 (1986) - [j11]Boaz Porat, Benjamin Friedlander:
A modification of the Kumaresan-Tufts methods for estimating rational impulse responses. IEEE Trans. Acoust. Speech Signal Process. 34(5): 1336-1338 (1986) - [j10]Boaz Porat, Benjamin Friedlander:
Adaptive detection of transient signals. IEEE Trans. Acoust. Speech Signal Process. 34(6): 1410-1418 (1986) - [c21]Boaz Porat, Benjamin Friedlander:
On the limiting behavior of estimates based on sample covariances. ICASSP 1986: 585-588 - [c20]Peter Stoica, Benjamin Friedlander, Torsten Söderström:
Asymptotic properties of high-order Yule-Walker estimates of frequencies of multiple sinusoids. ICASSP 1986: 609-612 - 1985
- [j9]Benjamin Friedlander, Ken Sharman:
Performance evaluation of the modified Yule-Walker estimator. IEEE Trans. Acoust. Speech Signal Process. 33(3): 719-725 (1985) - [j8]Julius O. Smith III, Benjamin Friedlander:
Adaptive multipath delay estimation. IEEE Trans. Acoust. Speech Signal Process. 33(4): 812-822 (1985) - [c19]Benjamin Friedlander, Boaz Porat:
Bounds for ARMA spectral analysis based on sample covariances. ICASSP 1985: 616-619 - [c18]Julius O. Smith III, Benjamin Friedlander:
Global convergence of the constant modulus algorithm. ICASSP 1985: 1161-1164 - [c17]Boaz Porat, Benjamin Friedlander:
Adaptive detection of transient signals. ICASSP 1985: 1266-1269 - 1984
- [j7]Benjamin Friedlander, Julius O. Smith III:
Analysis and performance evaluation of an adaptive notch filter. IEEE Trans. Inf. Theory 30(2): 283-298 (1984) - [j6]Benjamin Friedlander:
On the Cramer-Rao bound for time delay and Doppler estimation. IEEE Trans. Inf. Theory 30(3): 575-580 (1984) - [j5]Boaz Porat, Benjamin Friedlander:
ARMA spectral estimation of time series with missing observations. IEEE Trans. Inf. Theory 30(6): 823-831 (1984) - [c16]Ken C. Sharman, Benjamin Friedlander:
Time-varying autoregressive modeling of a class of nonstationary signals. ICASSP 1984: 227-230 - [c15]Boaz Porat, Benjamin Friedlander:
ARMA spectral estimation of time series with missing observations. ICASSP 1984: 554-557 - [c14]Benjamin Friedlander:
On the computation of the Cramer Rao bound for ARMA parameter estimation. ICASSP 1984: 573-576 - [c13]Julius O. Smith III, Benjamin Friedlander:
Adaptive multipath delay estimation. ICASSP 1984: 644-647 - 1983
- [j4]Boaz Porat, Benjamin Friedlander:
Estimation of spatial and spectral parameters of multiple sources. IEEE Trans. Inf. Theory 29(3): 412-425 (1983) - [c12]Benjamin Friedlander:
Efficient computation of the covariance sequence of an autoregressive process. ICASSP 1983: 182-185 - [c11]Benjamin Friedlander:
A parametric technique for estimation of delay and Doppler. ICASSP 1983: 887-890 - [c10]Benjamin Friedlander, John A. Newkirk:
A comparison of two SAR processing architectures for VLSI implementation. ICASSP 1983: 919-922 - [c9]Benjamin Friedlander, Boaz Porat:
A spectral matching technique for ARMA parameter estimation. ICASSP 1983: 1084-1087 - 1982
- [j3]Benjamin Friedlander:
A recursive maximum likelihood algorithm for ARMA spectral estimation. IEEE Trans. Inf. Theory 28(4): 639-645 (1982) - [c8]Benjamin Friedlander:
Instrumental variable methods for ARMA spectral estimation. ICASSP 1982: 248-251 - [c7]Benjamin Friedlander, Boaz Porat:
A parametric technique for time delay estimation. ICASSP 1982: 416-419 - 1981
- [c6]Benjamin Friedlander, Martin Morf:
Least-squares algorithms for adaptive linear-phase filtering. ICASSP 1981: 247-250 - [c5]Benjamin Friedlander, Sidhartha Maitra:
Speech deconvolution by recursive ARMA lattice filters. ICASSP 1981: 343-346 - [c4]Benjamin Friedlander:
A recursive maximum likelihood algorithms for ARMA line enhancement. ICASSP 1981: 488-491 - [c3]Benjamin Friedlander:
A modified lattice algorithm for deconvolving filtered impulsive processes. ICASSP 1981: 865-868 - [c2]Boaz Porat, Benjamin Friedlander, Martin Morf:
Square-root covariance ladder algorithms. ICASSP 1981: 877-880 - 1980
- [c1]Jean-Marc Delosme, Martin Morf, Benjamin Friedlander:
Source location from time differences of arrival: Identifiability and estimation. ICASSP 1980: 818-824
1970 – 1979
- 1979
- [j2]Martin Morf, J. R. Dobbins, Benjamin Friedlander, Thomas Kailath:
Square-root algorithms for parallel processing in optimal estimation, . Autom. 15(3): 299-306 (1979) - [j1]Martin Morf, Thomas Kailath, J. R. Dobbins, Benjamin Friedlander, John A. Newkirk:
Reply to discussion of 'square-root algorithms for parallel processing in optimal estimation'. Autom. 15(4): 499 (1979)
Coauthor Index
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