default search action
Benjamin Friedlander
Person information
- affiliation: University of California, Santa Cruz, USA
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
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
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 2024-04-25 05:41 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint