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ORCIDJohann F. Böhme
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2010 – 2019
- 2012
[j31]Pei-Jung Chung, Johann F. Böhme:
The Methodology of the Maximum Likelihood Approach: Estimation, Detection, and Exploration of Seismic Events. IEEE Signal Process. Mag. 29(3): 40-46 (2012)
2000 – 2009
- 2007
- [j30]Pei Jung Chung, Johann F. Böhme, Christoph F. Mecklenbräuker, Alfred O. Hero III:
Detection of the Number of Signals Using the Benjamini-Hochberg Procedure. IEEE Trans. Signal Process. 55(6-1): 2497-2508 (2007) - 2005
- [j29]Pei Jung Chung, Johann F. Böhme, Alfred O. Hero III:
Tracking of Multiple Moving Sources Using Recursive EM Algorithm. EURASIP J. Adv. Signal Process. 2005(1): 50-60 (2005) - [j28]Igor Djurovic, Ljubisa Stankovic
, Johann F. Böhme:
Estimation of FM signal parameters in impulse noise environments. Signal Process. 85(4): 821-835 (2005) - [j27]Pei Jung Chung, William J. J. Roberts, Johann F. Böhme:
Recursive K-distribution parameter estimation. IEEE Trans. Signal Process. 53(2-1): 397-402 (2005) - [j26]Pei Jung Chung, Johann F. Böhme:
Recursive EM and SAGE-inspired algorithms with application to DOA estimation. IEEE Trans. Signal Process. 53(8-1): 2664-2677 (2005) - [c53]Haris Hamedovic, Franz Raichle, Johann F. Böhme:
In-cylinder pressure reconstruction for multicylinder SI-engine by combined processing of engine speed and one cylinder pressure. ICASSP (5) 2005: 677-680 - [c52]Mark Urlaub, Johann F. Böhme:
Evaluation of knock begin in spark ignition engines by least squares. ICASSP (5) 2005: 681-684 - [c51]Marius Pesavento, Shahram Shahbazpanahi, Johann F. Böhme, Alex B. Gershman:
Exploiting multiple shift invariances in multidimensional harmonic retrieval of damped exponentials. ICASSP (4) 2005: 1017-1020 - 2004
- [j25]Marius Pesavento, Christoph F. Mecklenbräuker, Johann F. Böhme:
Multidimensional Rank Reduction Estimator for Parametric MIMO Channel Models. EURASIP J. Adv. Signal Process. 2004(9): 1354-1363 (2004) - [c50]Pei-Jung Chung, Anatole D. Ruslanov, Johann F. Böhme:
Parametric and nonparametric approaches to detection in magnetic resonance force microscopy. EUSIPCO 2004: 229-232 - [c49]Igor Djurovic, Mark Urlaub, Ljubisa Stankovic, Johann F. Böhme:
Estimation of multicomponent signals by using time-frequency representations with application to knock signal analysis. EUSIPCO 2004: 1785-1788 - [c48]Pei-Jung Chung, Johann F. Böhme:
Localization of multiple moving sources using recursive EM algorithm. EUSIPCO 2004: 2167-2170 - [c47]Ruben Villarino, Johann F. Böhme:
Pressure reconstruction and misfire detection from multichannel structure-borne sound. ICASSP (2) 2004: 141-144 - [c46]Markus Bühren, Marius Pesavento, Johann F. Böhme:
Virtual array design for array interpolation using differential geometry. ICASSP (2) 2004: 229-232 - [c45]Jianhua Zhang, Johann F. Böhme:
An Adaptive Sliding-Mode Fuzzy Control (ASMFC) Approach for a Class of Nonlinear Systems. ICINCO (1) 2004: 193-205 - 2003
- [j24]Igor Djurovic, Ljubisa Stankovic, Johann F. Böhme:
Robust L-estimation based forms of signal transforms and time-frequency representations. IEEE Trans. Signal Process. 51(7): 1753-1761 (2003) - [c44]Markus Bühren, Marius Pesavento, Johann F. Böhme:
A new approach to array interpolation by generation of artificial shift invariances: interpolated ESPRIT. ICASSP (5) 2003: 205-208 - [c43]Ruben Villarino, Johann F. Böhme:
Fast in-cylinder pressure reconstruction from structure-borne sound using the EM algorithm. ICASSP (6) 2003: 597-600 - [c42]Marius Pesavento, Christoph F. Mecklenbräuker, Johann F. Böhme:
Multi-dimensional harmonic estimation using K-D RARE in application to MIMO channel estimation. ICASSP (4) 2003: 644-647 - [c41]Pei-Jung Chung, Johann F. Böhme:
Recursive EM algorithm with adaptive step size. ISSPA (2) 2003: 519-522 - 2002
- [j23]Pei Jung Chung, Johann F. Böhme:
DOA estimation using fast EM and SAGE algorithms. Signal Process. 82(11): 1753-1762 (2002) - [c40]Igor Djurovic, Ljubisa Stankovic, Johann F. Böhme:
Myriad filter based form of the DFT. EUSIPCO 2002: 1-4 - [c39]Pei Jung Chung, Johann F. Böhme:
Recursive EM algorithm for stochastic ML DOA estimation. ICASSP 2002: 3029-3032 - [c38]Igor Djurovic, Ljubisa Stankovic, Johann F. Böhme:
Robust two-dimensional DFT. ICECS 2002: 1011-1014 - 2001
- [j22]Christoph F. Mecklenbräuker, Johann F. Böhme, Alex B. Gershman:
Broadband ML-approach to environmental parameter estimation in shallow ocean at low SNR. Signal Process. 81(2): 389-401 (2001) - [j21]Pei Jung Chung, Johann F. Böhme:
Comparative convergence analysis of EM and SAGE algorithms in DOA estimation. IEEE Trans. Signal Process. 49(12): 2940-2949 (2001) - [c37]Pei Jung Chung, Johann F. Böhme:
Comparative convergence analysis of EM and SAGE algorithms in DOA estimation. ICASSP 2001: 2993-2996 - [c36]Jörg Ringelstein, Lars Schmitt, Johann F. Böhme:
Decoupled estimation of DOA and coherence loss for multiple sources in uncertain propagation environments. ICASSP 2001: 2997-3000 - [c35]Sönke Carstens-Behrens, Johann F. Böhme:
Fast knock detection using pattern signals. ICASSP 2001: 3145-3148 - [c34]Pei Jung Chung, Johann F. Böhme:
DOA estimation using fast EM algorithm. ISSPA 2001: 128-131 - [c33]Sönke Carstens-Behrens, Johann F. Böhme:
Applying time-frequency methods to pressure and structure-borne sound for combustion diagnosis. ISSPA 2001: 256-259 - 2000
- [j20]Jörg Ringelstein, Alex B. Gershman, Johann F. Böhme:
Direction finding in random inhomogeneous media in the presence of multiplicative noise. IEEE Signal Process. Lett. 7(10): 269-272 (2000) - [j19]Alex B. Gershman, Etienne Nemeth, Johann F. Böhme:
Experimental performance of adaptive beamforming in a sonar environment with a towed array and moving interfering sources. IEEE Trans. Signal Process. 48(1): 246-250 (2000) - [c32]Pei-Jung Chung, Michael L. Jost, Johann F. Böhme:
Multiple phase detection and parameter estimation for processing seismic array data. ICASSP 2000: 3176-3179
1990 – 1999
- 1999
- [j18]Ljubisa Stankovic, Johann F. Böhme:
Time-frequency analysis of multiple resonances in combustion engine signals. Signal Process. 79(1): 15-28 (1999) - [c31]Sönke Carstens-Behrens, Michael Wagner, Johann F. Böhme:
Improved knock detection by time variant filtered structure-borne sound. ICASSP 1999: 2255-2258 - 1998
- [j17]Alex B. Gershman, Johann F. Böhme:
A pseudo-noise approach to direction finding. Signal Process. 71(1): 1-13 (1998) - [c30]Alex B. Gershman, Etienne Nemeth, Johann F. Böhme:
Robust adaptive beamforming: Experimental results. EUSIPCO 1998: 1-4 - [c29]Dmitri V. Sidorovich, Alex B. Gershman, Johann F. Böhme:
Processing of experimental seismic array data using 2-D wideband interpolated root-MUSIC. ICASSP 1998: 1985-1988 - [c28]Alex B. Gershman, Johann F. Böhme:
Eigenstructure beamspace root estimator bank with interpolated array. ICASSP 1998: 2017-2020 - 1997
- [j16]Alex B. Gershman, Jörg Ringelstein, Johann F. Böhme:
Removing the outliers in root-MUSIC via conventional beamformer. Signal Process. 60(2): 251-254 (1997) - [j15]Alex B. Gershman, Johann F. Böhme:
Improved DOA estimation via pseudorandom resampling of spatial spectrum. IEEE Signal Process. Lett. 4(2): 54-57 (1997) - [j14]Alex B. Gershman, Johann F. Böhme:
A note on most favorable array geometries for DOA estimation and array interpolation. IEEE Signal Process. Lett. 4(8): 232-235 (1997) - [j13]Alex B. Gershman, Ulrich Nickel, Johann F. Böhme:
Adaptive beamforming algorithms with robustness against jammer motion. IEEE Trans. Signal Process. 45(7): 1878-1885 (1997) - [j12]Alex B. Gershman, Christoph F. Mecklenbräuker, Johann F. Böhme:
Matrix fitting approach to direction of arrival estimation with imperfect spatial coherence of wavefronts. IEEE Trans. Signal Process. 45(7): 1894-1899 (1997) - [c27]Christoph F. Mecklenbräuker, Peter Gerstoft, Pei-Jung Chung, Johann F. Böhme:
Generalized likelihood ratio test for selecting a geo-acoustic environmental model. ICASSP 1997: 463-466 - [c26]Alex B. Gershman, Christoph F. Mecklenbräuker, Johann F. Böhme:
Direction finding with imperfect wavefront coherence: a matrix fitting approach using genetic algorithm. ICASSP 1997: 519-522 - 1996
- [j11]Alexei Gorokhov, Yuri I. Abramovich, Johann F. Böhme:
Unified analysis of DOA estimation algorithms for covariance matrix transforms. Signal Process. 55(1): 107-115 (1996) - [c25]Alex B. Gershman, Ulrich Nickel, Johann F. Böhme:
A unified approach to robust adaptive beamforming in moving jammer environment. EUSIPCO 1996: 1-4 - [c24]Christoph F. Mecklenbräuker, Masoud Geravanchizadeh, Johann F. Böhme:
Broadband matched field processing using robust prewhitening and multiple window techniques. ICASSP 1996: 3081-3084 - [c23]Michael Wagner, Bin Yang, Johann F. Böhme:
Error Propagation In the Pastd Algorithm. ISSPA 1996: 204-207 - 1995
- [j10]Abdelhak M. Zoubir, Johann Friedrich Böhme:
Bootstrap multiple tests applied to sensor location. IEEE Trans. Signal Process. 43(6): 1386-1396 (1995) - [c22]Alex B. Gershman, Alesander L. Matveyev, Johann F. Böhme:
ML estimation of signal power in the presence of unknown noise field-simple approximate estimator and explicit Cramer-Rao bound. ICASSP 1995: 1824-1827 - [c21]Detlef König, Christian Tork, Johann F. Böhme:
Design of optimum periodic time varying filters for applications in combustion diagnosis of car engines. ICASSP 1995: 1924-1927 - [c20]Christoph F. Mecklenbräuker, Dirk Maiwald, Johann F. Böhme:
F-test in matched field processing: identifying multimode propagation. ICASSP 1995: 3123-3126 - 1994
- [c19]Dirk Maiwald, Johann F. Böhme:
Multiple testing for seismic data using bootstrap. ICASSP (6) 1994: 89-92 - [c18]Detlef König, Johann F. Böhme:
Application of cyclostationary and time-frequency signal analysis to car engine diagnosis. ICASSP (4) 1994: 149-152 - [c17]Christoph F. Mecklenbräuker, Johann F. Böhme:
Matched field processing in shallow ocean: signal arrival identification using EM algorithm. ICASSP (2) 1994: 337-340 - 1993
- [c16]Dieter Kraus, A. Dhaouadi, Johann Friedrich Böhme:
EM dual maximum likelihood estimation for wideband source location. ICASSP (1) 1993: 257-260 - [c15]Dirk Maiwald, D. V. Sidorovitch, Johann F. Böhme:
Broadband maximum likelihood wave parameter estimation using polarization sensitive arrays. ICASSP (4) 1993: 356-359 - 1992
- [j9]Bin Yang, Johann F. Böhme:
Rotation-based RLS algorithms: unified derivations, numerical properties, and parallel implementations. IEEE Trans. Signal Process. 40(5): 1151-1167 (1992) - [j8]Ferenc Kocsis, Johann F. Böhme:
Fast algorithms and parallel structures for form factor evaluation. Vis. Comput. 8(4): 205-216 (1992) - 1991
- [j7]Johann F. Böhme:
Introduction to signals and systems : Edward Kamen. Autom. 27(1): 209 (1991) - 1990
- [j6]Ferenc Kocsis, Johann F. Böhme:
Rotation-Based Computations for Ray-Tracing Second-Order Surfaces and Curves. Inf. Process. Lett. 36(6): 281-283 (1990) - [c14]Thomas M. Bossmeyer, Johann F. Böhme:
Parametric Detectors for Knock in Spark Ignition Engines. ASST 1990: 48-51 - [c13]Dieter Kraus, Christoph H. Gierull, Johann F. Böhme:
Maiximum Likelihood Estimation of Source Locations Using the EM-Algorithm. ASST 1990: 198-203 - [c12]Ferenc Kocsis, Johann F. Böhme:
Some Possible Applications of CORDIC Processors in Computer Graphics. Eurographics 1990 - [c11]Abdelhak M. Zoubir, Johann F. Böhme:
Optimization of sensor positions in knock detection using relevancy tests of sensor output signals. ICASSP 1990: 2627-2630 - [c10]Dieter Kraus, Johann F. Böhme:
Asymptotic and empirical results on approximate maximum likelihood and least squares estimates for sensor array processing. ICASSP 1990: 2795-2798
1980 – 1989
- 1989
- [c9]Bin Yang, Johann F. Böhme:
On a systolic implementation and the numerical properties of a multiple constrained adaptive beamformer. ICASSP 1989: 2819-2822 - 1988
- [c8]Bin Yang, Johann F. Böhme:
Systolic implementation of a general adaptive array processing algorithm. ICASSP 1988: 2785-2788 - [c7]Johann F. Böhme, Dieter Kraus:
On least squares methods for direction of arrival estimation in the presence of unknown noise fields. ICASSP 1988: 2833-2836 - 1987
- [c6]N. Härle, Johann F. Böhme:
Detection of knocking for spark ignition engines based on structural vibrations. ICASSP 1987: 1744-1747 - [c5]U. Sandkühler, Johann F. Böhme:
Accuracy of maximum-likelihood estimates for array processing. ICASSP 1987: 2015-2018 - 1986
- [c4]Johann F. Böhme:
Separated estimation of wave parameters and spectral parameters by maximum likelihood. ICASSP 1986: 2819-2822 - 1984
- [c3]Johann F. Böhme:
Estimation of source parameters by maximum likelihood and nonlinear regression. ICASSP 1984: 271-274 - 1983
- [j5]Johann F. Böhme:
On the stability of some high-resolution beamforming methods. Inf. Sci. 29(1): 75-88 (1983) - 1982
- [c2]Johann F. Böhme:
On the sensitivity of orthogonal beamforming. ICASSP 1982: 787-790
1970 – 1979
- 1974
- [j4]Johann F. Böhme:
The cepstrum as a generalized function (Corresp.). IEEE Trans. Inf. Theory 20(5): 650-653 (1974) - 1973
- [c1]Johann F. Böhme:
Probleme bei der Signaldetektion mit einem Prozessrechner. GI Jahrestagung 1973: 384-393 - 1971
- [j3]Johann F. Böhme:
Diagnostische Vorgabeexperimente mit stochastischen Automaten. Computing 8(1-2): 79-98 (1971) - 1970
- [j2]Claus Unger, Johann F. Böhme, Erich Bukovics, R. Albrecht, R. Eier, P. Meissl, Inge Troch, H. Florian, F. Hauer:
Buchbesprechungen. Computing 5(1): 89-96 (1970) - [j1]Johann Friedrich Böhme:
Über Umformungen von Mustern zur Klassifizierung. J. Inf. Process. Cybern. 6(1): 51-56 (1970)
Coauthor Index
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