| [1] Stoica P, Henorai. MUSIC. Maximum Likelihood, and Cramer-Rao Bound[J]. IEEE Trans on Acoustic Speech Signal Processing, 1989, 37(5):720-741.
[2] Boon P N, Lie J P, Meng H E et al. A Practical Simple Geometry and Gain/Phase Calibration Technique for Antenna Array Processing[J]. IEEE Trans on Antennas and Propagation,2009,57(7): 1963-1972.
[3] Pawlak H, Jacob A F. An External Calibration Scheme for DBF Antenna Arrays[J]. IEEE Trans on Antennas and Propagation, 2010, 58(1): 59-67.
[4] Rockah Y, Schultheiss P M. Array Shape Calibration Using Source in Unknown Location, Part Ⅰ: Far-field source[J]. IEEE Trans on Acoustic Speech Signal Processing, 1987, 35(2):286-299.
[5] Stocia P, Viberg M, Wong K M et al. Maximum-likelihood Bearing Estimation with Party Calibrated Array in Spatially Correlated Noise[J]. IEEE Trans on Signal Processing, 1988, 36(4):888-889.
[6] Godara L C. Application of Antenna Arrays to Mobile Communication, Part Ⅱ: Beamforing and Direction of Arrival Consideration[J]. Proc IEEE,1997, 85(8):1195-1245.
[7] Friedlander B, Weiss A J. Direction Finding in the Presence If Mutual Couping[J]. IEEE Trans on Antennas and Propagation, 1991, 39(3): 273-284.
[8] Mir H S. A Generalized Transfer-Function Based Array Calibration Technique for Direction Finding[J]. IEEE Trans on Signal Processing, 2008, 56(2):851-855.
[9] Kung S Y, Lo C K, Foka R. A Toeplitz Approximation Approach to Coherent Source Direction Finding[C]//ICASSP: Vol (Ⅰ). New York: IEEE, 1986:193-196.
[10] Gao Jianyong, Gao Yong. The Adaptive Beamforming Algorithm for Coherent Sources Non-uniform Linear Array Based on Improved Toeplitz Approximation[J]. Journal of Astronautics,2007, 28(6):1715-1718.
[11] 李有明, 王让定, 文化峰. 均匀直线阵幅相误差校正的扰动分析及最优化算法[J]. 电子与信息学报, 2007, 27(7): 1653-1656.
Li Youming, Wang Rangding, Wen Huafeng. Perturbation Analysis of Gain and Phase Error Calibration for Uniform Linear Array with Optimal Algorithms[J]. Journal of Electronics&Information Technology, 2007, 27(7): 1653-1656. |
