Page 35 - 《应用声学》2025年第1期
P. 35

第 44 卷 第 1 期                   张楠等: 检测声学成像原理与技术综述                                            31


                 sonic testing[J]. Chinese Journal of Scientific Instrument,  [25] 何为, 王平, 罗晓华. 数字超声成像原理和架构体系设计 [M].
                 2016, 37(5): 1118–1123.                           北京: 科学出版社, 2014.
             [12] Ristic A V, Petrovacki D, Govedarica M. A new method  [26] 胡宏伟, 王泽湘, 王哲, 等. 基于迭代法及腐蚀算法的超
                 to simultaneously estimate the radius of a cylindrical ob-  声相控阵缺陷提取 [J]. 电子测量与仪器学报 2015, 29(12):
                 ject and the wave propagation velocity from GPR data[J].  1765–1771.
                 Computers & Geosciences, 2009, 35(8): 1620–1630.  Hu Hongwei, Wang Zexiang, Wang Zhe, et al. The defect
             [13] Bureau F, Robin J, Le Ber A, et al. Three-dimensional  extraction of ultrasonic phased array image based on it-
                 ultrasound matrix imaging[J]. Nature Communications,  erative method and erosion algorithm[J]. Journal of Elec-
                 2023, 14(1): 6793.                                tronic Measurement and Instrumentation, 2015, 29(12):
             [14] Spies M, Rieder H, Dillhöfer A, et al. Synthetic aperture  1765–1771.
                 focusing and time-of-flight diffraction ultrasonic imag-  [27] 靳世久, 杨晓霞, 陈世利, 等. 超声相控阵检测技术的发展及
                 ing—Past and present[J]. Journal of Nondestructive Eval-  应用 [J]. 电子测量与仪器学报 2014, 28(9): 925–934.
                 uation, 2012, 31(4): 310–323.                     Jin Shijiu, Yang Xiaoxia, Chen Shili, et al. Development
             [15] 孙宝申, 沈建中. 合成孔径聚焦超声成像 (一)[J]. 应用声学,               and application of ultrasonic phased array inspection tech-
                 1993, 12(3): 43–48.                               nology[J]. Journal of Electronic Measurement and Instru-
                                                                   mentation, 2014, 28(9): 925–934.
             [16] Stepinski T. An implementation of synthetic aperture fo-
                 cusing technique in frequency domain[J]. IEEE Transac-  [28] Kim Y H, Lee J R. Automated data evaluation in phased-
                 tions on Ultrasonics, Ferroelectrics, and Frequency Con-  array ultrasonic testing based on A-scan and feature train-
                 trol, 2007, 54(7): 1399–1408.                     ing[J]. NDT & E International, 2024, 141: 102974.
             [17] Schmitz V, Chakhlov S, Müller W. Experiences with syn-  [29] 彭小冲, 费跃农. 相控阵超声接收动态聚焦算法及其物理实
                 thetic aperture focusing technique in the field[J]. Ultra-  现 [J]. 应用声学, 2014, 33(5): 453–461.
                 sonics, 2000, 38(1–8): 731–738.                   Peng Xiaochong, Fei Yuenong. Receiving dynamic depth
             [18] Yang C, Qin K H, Li Y Z. Real-time ultrasonic imaging  focusing algorithm of phased array ultrasound imaging
                 for multi-layered objects with synthetic aperture focusing  and its physical implementation scheme[J]. Journal of Ap-
                 technique[C]//2014 IEEE International Instrumentation  plied Acoustics, 2014, 33(5): 453–461.
                 and Measurement Technology Conference (I2MTC) Pro-  [30] 彭虎. 超声成像算法导论 [M]. 合肥: 中国科学技术大学出版
                 ceedings. May 12–15, 2014. Montevideo, Uruguay. IEEE,  社, 2008.
                 2014.                                          [31] 涂春磊, 周晓军, 杨辰龙, 等. 相控阵超声检测 DDF 优化方法
             [19] Burch S F. Comparison of SAFT and two-dimensional de-  的研究 [J]. 控制工程, 2012, 19(3): 535–538.
                 convolution methods for the improvement of resolution  Tu Chunlei, Zhou Xiaojun, Yang Chenlong, et al. Opti-
                 in ultrasonic B-scan images[J]. Ultrasonics, 1987, 25(5):  mization method of DDF for ultrasonic phased array[J].
                 259–266.                                          Control Engineering of China, 2012, 19(3): 535–538.
             [20] 张志宏, 张丛耀, 叶晖, 等. 医学超声合成孔径成像及弹性成               [32] Yoon C, Yoo Y, Song T K, et al. Orthogonal quadratic
                 像的优化技术研究 [M]. 成都: 电子科技大学出版社, 2017.                chirp signals for simultaneous multi-zone focusing in med-
             [21] 黄焕东, 胡利晨, 李斌彬, 等. 基于区域的快速卷积神经网                   ical ultrasound imaging[J]. IEEE Transactions on Ultra-
                 络的焊缝 TOFD 检测缺陷识别 [J]. 无损检测, 2019, 41(7):          sonics, Ferroelectrics, and Frequency Control, 2012, 59(5):
                 12–18.                                            1061–1069.
                 Huang Huandong, Hu Lichen, Li Binbin, et al. Recog-  [33] 罗汉武, 孙广, 崔士刚, 等. 一种基于误差约束的动态聚焦最
                 nition of defect in TOFD image based on faster region  优分段方法 [J]. 传感技术学报, 2018, 31(3): 374–379.
                 convolutional neural networks[J]. Nondestructive Testing,  Luo Hanwu, Sun Guang, Cui Shigang, et al. The opti-
                 2019, 41(7): 12–18.                               mal segmentation method based on error constraints for
             [22] Olympus NDT. Introduction to phased array ultrasonic  dynamic focusing[J]. Chinese Journal of Sensors and Ac-
                 technology applications: R/D tech guideline[M]. Olympus  tuators, 2018, 31(3): 374–379.
                 NDT, 2007.                                     [34] 王平, 邹强鑫, 王林泓, 等. 一种融合动态孔径的聚焦延迟参
             [23] Wu Y X, Hu J T, Pei C X, et al. Enhanced PAUT method  数压缩方法 [J]. 仪器仪表学报, 2013, 34(9): 2080–2086.
                 with pulse compression for heavy-walled CASSs in nuclear  Wang Ping, Zou Qiangxin, Wang Linhong, et al. Focus
                 power plants[J]. Progress in Nuclear Energy, 2024, 171:  delay parameter compression method combined with dy-
                 105153.                                           namic aperture control[J]. Chinese Journal of Scientific
             [24] 徐皓胜, 曾伟, 杨绍辉, 等. 超声相控阵系统提高延时分辨率                  Instrument, 2013, 34(9): 2080–2086.
                 的研究进展 [J]. 压电与声光, 2020, 42(5): 668–673.        [35] 王伟明, 陈民铀. 一种基于分段动态变迹技术的超声成像方
                 Xu Haosheng, Zeng Wei, Yang Shaohui, et al.  Re-  法 [J]. 中国超声医学杂志, 2010, 26(9): 863–865.
                 search progress on improving delay resolution of ultrasonic  Wang Weiming, Chen Minyou. Ultrasound imaging based
                 phased array system[J]. Piezoelectrics & Acoustooptics,  on segment dynamic apodization technology[J]. Chinese
                 2020, 42(5): 668–673.                             Journal of Ultrasound in Medicine, 2010, 26(9): 863–865.
   30   31   32   33   34   35   36   37   38   39   40