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struction performance in the bright area and the sound [6] Hansen P C. The discrete Picard condition for discrete
energy in the dark area[J]. Acta Acustica, 2018, 43(5): ill-posed problems[J]. BIT, 1990, 30(4): 658–672.
835–842. [7] Golub G H, Hansen P C, O’Leary D P. Tikhonov reg-
[2] Betlehem T, Withers C. Sound field reproduction with ularization and total least squares[J]. SIAM Journal on
energy constraint on loudspeaker weights[J]. IEEE Trans- Matrix Analysis & Applications, 1999, 21(1): 185–194.
actions on Audio, Speech, and Language Processing, 2012, [8] Stefanakis N, Jacobsen F, Sarris J. Effort variation reg-
20(8): 2388–2392. ularization in sound field reproduction[J]. Journal of the
[3] Shin M, Fazi F M, Nelson P A, et al. Controlled sound Acoustical Society of America, 2010, 128(2): 740–750.
field with a dual layer loudspeaker array[J]. Journal of [9] Gauthier P A, Camier C, Pasco Y, et al. Beamform-
Sound and Vibration, 2014, 333(16): 3794–3817. ing regularization matrix and inverse problems applied
[4] Betlehem T, Teal P D. A constrained optimization ap- to sound field measurement and extrapolation using mi-
proach for multi-zone surround sound[C]. IEEE Interna- crophone array[J]. Journal of Sound & Vibration, 2011,
tional Conference on Acoustics. IEEE, 2011. 330(24): 5852–5877.
[5] 刘力, 蔡野锋, 吴鸣, 等. 基于最小二乘法的均匀扩声技术研 [10] 夏超男. 基于 L 曲线的正则化参数选取研究 [D]. 广州: 暨南
究 [J]. 应用声学, 2015, 34(1): 7–16. 大学, 2016.
Liu Li, Cai Yefeng, Wu Ming, et al. Research on uniform [11] Hansen P C, O’Leary D P. The use of the l-curve in
sound reinforcement technology based on least square the regularization of discrete ill-posed problems[J]. SIAM
method[J]. Journal of Applied Acoustics, 2015, 34(1): Journal on Scientific Computing, 1993, 14(6): 1487–1503.
7–16.
