H. Jiang, S.X. Wang, H.J. Lu, “A Novel Higher Order Cyclic Cumulant Based Direction Finding Algorithm In Multipath” Signal Processing, Procs. ICSP '04. 7th Int. Conf., Vol: 1, pp. 411-414, 31 Aug.-4 Sept. 2004.
M.J.D. Rendas, J.M.F. Moura, “Path Resolution By Coherent Averaging: Trading Spatial And Temporal Degrees Of Freedom”, ICASSP-88, Int. Conf. Acou., Speech, Sig.Proc., Vol: 5, pp. 2626-2629, 11-14 April 1988.
N. Kabaoğlu, H.A. Çırpan, S. Paker, “Unconditional Maximum Likelihood Approach For Localization Of Near-Field Sources In 3D Space”, Proce. of the Fourth IEEE International Symp. on Sig. Processing and Inf. Tech., pp. 233237, 18-21 Dec., 2004.
A.P. Dempster, N. Laird, D.B. Rubin, “Maximum Likelihood From Incomplete Data Via The EM Algorithm”, J. Roy. Statist. Soc. Ser. B, Vol: 39, No. 1, pp. 1-38, 1977.
D.M. Titterington, “Recursive Parameter Estimation Using Incomplete Data” J. Roy. Stat. Soc. Ser. B, Vol: 46, No. 2, pp. 257-267, 1984.
M.I. Miller, D.R. Fuhrmann, “MaximumLikelihood Narrow-Band Direction Finding And The EM Algorithm”, IEEE Trans. Acou. Speech, Sig. Proc., Vol: 38, pp. 1560-1577, Sept. 1990.
E. Çekli, H.A. Çırpan, “Unconditional Maximum Likelihood Approach for Localization of Near-Field Sources: Algorithm and Performance Analysis”, AEÜ Int. Journal Elect. and Comm., Vol. 57, No. 1, pp. 9-15, 2003.
N. Kabaoglu, H.A. Cirpan, S. Paker, “EM Based Stochastic Maximum Likelihood Approach for Localization of Near-Field Sources in 3-D,” Frequenz, Journal Telecommunications, Vol. 58, pp. 178-184, 7-8/2004.
J.A. Olague, D.C. Rosales, J.L. Rivera, “Efficiency Evaluation Of The Unconditional Maximum Likelihood Estimator For Near-Field DOA Estimation” ETRI Journal, Vol: 28, No. 6, pp. 761-769, Dec. 2006.
L. Frenkel, M. Feder, “Recursive Expectation-Maximization (EM) Algorithms For Time Varying Parameters With Applications To Multiple Target Tracking”, IEEE Trans. Signal Proc., Vol: 47, No. 2, pp. 306-320, Feb. 1999.
P. J. Chung, J. F. Böhme, A. O. Hero, “Tracking Of Multiple Moving Sources Using Recursive EM Algorithm”, EURASIP Journal on Applied Signal Proces., No.1, 50-60., 2005
O. Cappe, M. Charbit, E. Moulines, “Recursive EM Algorithm With Applications To DOA Estimation”, ICASSP Proc. IEEE Int. Conf. Acoustics, Speech Signal Proc., 2006.
G.E. Forsythe, M.A. Malcolm, C.B. Moler, Computer Methods For Mathematical Computations, Prentice Hall, 1976.
A. Benveniste, M. M´etivier, P. Priouret, “Adaptive Algorithms and Stochastic Approximations”, Source Springer Applications of Mathematics Series, Springer-Verlag, New York, NY, USA, 1990.
P. Stoica, B. Ottersten, M. Viberg, and R. L., Moses, “Maximum Likelihood Array processing for stochastic Coherent Sources”, IEEE Trans. Sig. Proc., Vol: 44, No. 1, Jan., 1996
M. Harrdt, “Efficient One-, Two, and Multidimensional High-Resolution Array Signal Processing”, Ph.D. dissertation, Technische Universitat München, 1997.
H. A. Çırpan, E. Çekli, “Deterministic Maximum Likelihood Approach for Localization of Near-Field Sources”, AEÜ Int. Journal Electronics and Com., Vol: 56, No. 1, pp. 1-10, 2002.
A.L. Swindlehurst and T. Kailath, “Azimuth / Elevation Direction Finding Using Regular Array Geometries”, IEEE Trans. Acou. Speech, and Sig. Proc., Vol: 29, pp. 145-156, Jan 1993.
Year 2009,
Volume: 9 Issue: 1, 769 - 779, 14.02.2012
H. Jiang, S.X. Wang, H.J. Lu, “A Novel Higher Order Cyclic Cumulant Based Direction Finding Algorithm In Multipath” Signal Processing, Procs. ICSP '04. 7th Int. Conf., Vol: 1, pp. 411-414, 31 Aug.-4 Sept. 2004.
M.J.D. Rendas, J.M.F. Moura, “Path Resolution By Coherent Averaging: Trading Spatial And Temporal Degrees Of Freedom”, ICASSP-88, Int. Conf. Acou., Speech, Sig.Proc., Vol: 5, pp. 2626-2629, 11-14 April 1988.
N. Kabaoğlu, H.A. Çırpan, S. Paker, “Unconditional Maximum Likelihood Approach For Localization Of Near-Field Sources In 3D Space”, Proce. of the Fourth IEEE International Symp. on Sig. Processing and Inf. Tech., pp. 233237, 18-21 Dec., 2004.
A.P. Dempster, N. Laird, D.B. Rubin, “Maximum Likelihood From Incomplete Data Via The EM Algorithm”, J. Roy. Statist. Soc. Ser. B, Vol: 39, No. 1, pp. 1-38, 1977.
D.M. Titterington, “Recursive Parameter Estimation Using Incomplete Data” J. Roy. Stat. Soc. Ser. B, Vol: 46, No. 2, pp. 257-267, 1984.
M.I. Miller, D.R. Fuhrmann, “MaximumLikelihood Narrow-Band Direction Finding And The EM Algorithm”, IEEE Trans. Acou. Speech, Sig. Proc., Vol: 38, pp. 1560-1577, Sept. 1990.
E. Çekli, H.A. Çırpan, “Unconditional Maximum Likelihood Approach for Localization of Near-Field Sources: Algorithm and Performance Analysis”, AEÜ Int. Journal Elect. and Comm., Vol. 57, No. 1, pp. 9-15, 2003.
N. Kabaoglu, H.A. Cirpan, S. Paker, “EM Based Stochastic Maximum Likelihood Approach for Localization of Near-Field Sources in 3-D,” Frequenz, Journal Telecommunications, Vol. 58, pp. 178-184, 7-8/2004.
J.A. Olague, D.C. Rosales, J.L. Rivera, “Efficiency Evaluation Of The Unconditional Maximum Likelihood Estimator For Near-Field DOA Estimation” ETRI Journal, Vol: 28, No. 6, pp. 761-769, Dec. 2006.
L. Frenkel, M. Feder, “Recursive Expectation-Maximization (EM) Algorithms For Time Varying Parameters With Applications To Multiple Target Tracking”, IEEE Trans. Signal Proc., Vol: 47, No. 2, pp. 306-320, Feb. 1999.
P. J. Chung, J. F. Böhme, A. O. Hero, “Tracking Of Multiple Moving Sources Using Recursive EM Algorithm”, EURASIP Journal on Applied Signal Proces., No.1, 50-60., 2005
O. Cappe, M. Charbit, E. Moulines, “Recursive EM Algorithm With Applications To DOA Estimation”, ICASSP Proc. IEEE Int. Conf. Acoustics, Speech Signal Proc., 2006.
G.E. Forsythe, M.A. Malcolm, C.B. Moler, Computer Methods For Mathematical Computations, Prentice Hall, 1976.
A. Benveniste, M. M´etivier, P. Priouret, “Adaptive Algorithms and Stochastic Approximations”, Source Springer Applications of Mathematics Series, Springer-Verlag, New York, NY, USA, 1990.
P. Stoica, B. Ottersten, M. Viberg, and R. L., Moses, “Maximum Likelihood Array processing for stochastic Coherent Sources”, IEEE Trans. Sig. Proc., Vol: 44, No. 1, Jan., 1996
M. Harrdt, “Efficient One-, Two, and Multidimensional High-Resolution Array Signal Processing”, Ph.D. dissertation, Technische Universitat München, 1997.
H. A. Çırpan, E. Çekli, “Deterministic Maximum Likelihood Approach for Localization of Near-Field Sources”, AEÜ Int. Journal Electronics and Com., Vol: 56, No. 1, pp. 1-10, 2002.
A.L. Swindlehurst and T. Kailath, “Azimuth / Elevation Direction Finding Using Regular Array Geometries”, IEEE Trans. Acou. Speech, and Sig. Proc., Vol: 29, pp. 145-156, Jan 1993.
Çekli, S., Çeklı, E., & Kabaoğlu, N. (2012). NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS. IU-Journal of Electrical & Electronics Engineering, 9(1), 769-779.
AMA
Çekli S, Çeklı E, Kabaoğlu N. NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS. IU-Journal of Electrical & Electronics Engineering. February 2012;9(1):769-779.
Chicago
Çekli, Serap, Erdinç Çeklı, and Nihat Kabaoğlu. “NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS”. IU-Journal of Electrical & Electronics Engineering 9, no. 1 (February 2012): 769-79.
EndNote
Çekli S, Çeklı E, Kabaoğlu N (February 1, 2012) NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS. IU-Journal of Electrical & Electronics Engineering 9 1 769–779.
IEEE
S. Çekli, E. Çeklı, and N. Kabaoğlu, “NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS”, IU-Journal of Electrical & Electronics Engineering, vol. 9, no. 1, pp. 769–779, 2012.
ISNAD
Çekli, Serap et al. “NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS”. IU-Journal of Electrical & Electronics Engineering 9/1 (February 2012), 769-779.
JAMA
Çekli S, Çeklı E, Kabaoğlu N. NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS. IU-Journal of Electrical & Electronics Engineering. 2012;9:769–779.
MLA
Çekli, Serap et al. “NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS”. IU-Journal of Electrical & Electronics Engineering, vol. 9, no. 1, 2012, pp. 769-7.
Vancouver
Çekli S, Çeklı E, Kabaoğlu N. NEAR FIELD LOCALIZATION OF MOVING SOURCES WITH REM ALGORITHMS. IU-Journal of Electrical & Electronics Engineering. 2012;9(1):769-7.