[1] Malcolm H, Arye N. Acoustic vector sensor processing in the presence of a reflecting boundary [J]. IEEETransactions on Signal Processing, 2000, 48(11): 2981-2993.[2] Sun Gui-qing, Li Qi-hu, Yang Xiu-ting, et al. A novel fiber optic hydrophone and vector hydrophone[J]. Physics, 2008, 35(8): 645-655 (in Chinese).[3] Jia Zhi-fu. Novel sensor technology for comprehensive underwater acoustic information-vector hydrophonesand their applications [J]. Physics, 2009, 38(3): 157-168 (in Chinese).[4] Kosobrodov R A, Nekrasov V N. Effect of the diffraction of sound by the carrier of hydroacousticequipment on the results of measurements [J]. Acoustical Physics, 2001, 47(3): 382-388.[5] Shi Sheng-guo, Yang De-sen, Wang San-de. Influences of sound diffraction by elastic spherical shellon acoustic vector sensor measurement [J]. Journal of Harbin Engineering University, 2006, 27(1): 84-89 (in Chinese).[6] Shi Sheng-guo. Research on vector hydrophone and its application for underwater platform [D]. Harbin, China: College of Underwater Acoustic Engineering,Harbin Engineering University, 2006 (in Chinese).[7] Shi Sheng-guo, Yang De-sen. Influences of sound scattering by elastic spherical shell on DOA estimation performanceof vector hydrophone [J]. Technical Acoustics, 2008, 27(5): 642-648 (in Chinese).[8] Barton J P, Nicholas L W, Zhang H F, et al.Nearfield calculations for a rigid spheroid with an arbitraryincident acoustic field [J]. Journal of the Acoustical Society of America, 2003, 113(3): 1216-1222.[9] Rapids B R, Lauchle G C. Vector intensity field scattered by a rigid prolate spheroid [J]. Journal of theAcoustical Society of America, 2006, 120(1): 38-48.[10] Rapids B R, Lauchle G C. Processing of forward scattered acoustic fields with intensity sensors[C]//Oceans 2002 Conference. Mississippi, USA: IEEE, 2002: 1911-1914.[11] Roumeliotis J A, Kotsis A D, Kolezas G. Acoustic scattering by an impenetrable spheroid [J]. AcousticalPhysics, 2007, 53(4): 436-447.[12] Sheng Xue-li, Guo Long-xiang, Liang Guo-long. Study on the directivity of the vector sensor withspherical soft baffle plate [J]. Technical Acoustics, 2002,21: 56-60 (in Chinese).[13] Li Chun-xu. Combined signal processing technology with acoustic pressure and particle velocity [D].Harbin, China: College of Underwater Acoustic Engineering, Harbin Engineering University, 2000 (in Chinese).[14] Ji Jian-fei, Liang Guo-long, Wang Yan, et al. Influences of prolate spheroidal baffle of sound diffractionon spatial directivity of acoustic vector sensor [J]. SCIENCE CHINA Technological Sciences, 2010, 53(10):2846-2852.[15] Ji Jian-fei, Liang Guo-long, Liu Kai. Influences of soft prolate spheroidal baffle on directivity of acousticvector sensor [C]// 2010 IEEE International Conference on Information and Automation. Harbin, China: IEEE, 2010: 650-654.[16] Ji Jian-fei, Liang Guo-long, Huang Yu-lin, et al. Influences on spatial directivity of acoustic vector sensorby soft spherical boundary [C]//2010 International Conference on Computational and Information Sciences.Chengdu, China: IEEE, 2010: 794-800.[17] Ji Jian-fei, Liang Guo-long, Zhang Guang-pu, et al. Influences on the directivity of acoustic vector sensorby soft cylinder baffle [J]. Communications in Computer and Information Science, 2011, 135: 291-295.[18] Peter R J, David E. Transformations for evaluating singular boundary element integrals [J]. Journal ofComputational and Applied Mathematics, 2002, 146:231-251.[19] Ma H, Kamiya N. A general algorithm for the numerical evaluation of nearly singular boundary integrals ofvarious orders for two and three dimensional elasticity [J]. Computational Mechanics, 2002, 29: 277-288.[20] Hu Zong-jun, Niu Zhong-rong, Cheng Chang-zheng, et al. Regularization of nearly singular integrals in theboundary element for three dimensional acoustic problems [J]. Journal of University of Science and Technologyof China, 2009, 39(6): 639-644 (in Chinese).[21] Zhuo Lin-kai, Fan Jun, Tang Wei-lin. Analyzing acoustic scattering of elastic objects using coupledFEM-BEM technique [J]. Journal of Shanghai Jiaotong University, 2009, 43(8): 1257-1261 (in Chinese).[22] He Zhuo-yong, Zhao Yu-fang. Theory foundation of acoustic [M]. Beijing, China: National Defense Industry Press, 1981 (in Chinese).[23] Yu Fei, Chen Jian, Li Wei-bing, et al. Sound field separation technique and its applications in near-fieldacoustic holography [J]. Acta Physica Sinica, 2005,54(2): 789-797 (in Chinese).[24] Li Wei-bing, Lian Mei-zhuan, Bi Chuan-xing, et al. Separation theory of the incident and scattered soundfields in spherical coordinate [J]. SCIENCE CHINA Technological Sciences, 2007, 50(3): 361-370.[25] Li Wei-bing, Lian Mei-zhuan, Bi Chuan-xing, et al. Separation theory of the incident and scattered soundfields in spherical coordinate [J]. SCIENCE CHINA Technological Sciences, 2007, 37(1): 99-106 (in Chinese).[26] Bi Chuan-xing, Zhang Yong-bin, Xu Ling, et al. An experimental investigation of planar near field acousticholography using pressure and particle velocity measurements [J]. Acta Physica Sinica, 2010, 59(2): 1108-1116.[27] Zhang Yong-bin, Xu Ling, Bi Chuan-xing, et al. Sound field separation technique based on single surfacemeasurement using pressure-velocity transducers[J]. Acta Physica Sinica, 2009, 58(12): 8364-8372.[28] Li Wei-bing, Chen Jian, Yu Fei, et al. The principle of statistically optimal planar near-field acousticalholography and the sound field separation technique[J]. Acta Physica Sinica, 2005, 54(3): 1253-1261. |