[1] NI Ming, ZHANG Ren-he, HU Yong-ming, et al. Development of fiber optic hydrophone[C]. 2003 Youth Academic Conference of Chinese acoustic Society, 2003: 157-159.倪明, 张仁和, 胡永明, 等. 光纤水听器研究进展[C]. 中国声学学会2003年青年学术会议, 2003: 157-159.

[2] ZHOU Ci-ming, PANG Yan-dong, QIAN Li, et al. Demodulation of a hydroacoustic sensor array of fiber interferometers based on ultra-weak fiber bragg grating reflectors using a self-referencing signal[J]. Journal of Lightwave Technology, 2019, 37(11): 2568-2576.

[3] TAKAHASHI N, YOSHIMURA K, TAKAHASHI S, et al. Development of an optical fiber hydrophone with fiber Bragg grating[J]. Ultrasonics, 2000, 38(1-8): 581-585.

[4] NASH P. Review of interferometric optical fibre hydrophone technology[J]. IEE Proceedings - Radar, Sonar and Navigation, 1996, 143(3): 204.

[5] LIU Sheng. Study of distributed vibration detection system based on weak fiber[D]. Wuhan: Wuhan University of Technology, 2017: 39-41.刘胜, 基于弱光纤光栅阵列的分布式振动探测系统研究[D]. 武汉: 武汉理工大学, 2017: 39-41.

[6] TIETJEN B W. Bias compensated optical grating hydrophone[J]. Journal of the Acoustical Society of America, 1985, 77(2): 786-786.

[7] LIU Sheng, HAN Xin-ying, XIONG Yu-chuan,et al. Distributed vibration detection system based on weak fiber bragg grating array[J]. Chinese Journal of Lasers, 2017, 44(2): 313-318.刘胜, 韩新颖, 熊玉川, 等. 基于弱光纤光栅阵列的分布式振动探测系统[J]. 中国激光, 2017, 44(2): 313-318.

[8] XU Qian-nan, ZHOU Ci-ming, FAN Dian, et al. Experimental study on ultra-weak fiber bragg grating hydrophone arrays based on fizeau interference[J]. Laser & Optoelectronics Progress, 2019, 56(15): 41-48.徐倩楠, 周次明, 范典, 等. 基于斐索干涉的超弱光纤光栅水听器阵列实验研究[J]. 激光与光电子学进展, 2019, 56(15): 41-48.

[9] PANG Yan-dong, ZHOU Ci-ming, FAN Dian, et al. Research of very low-frequency(VLF) hydroacoustic detection based on Fizeau interferometry[C]. 26th International Conference on Optical Fiber Sensors, 2018: TuE37.

[10] XIN Wen-hui, LI Shi-chun, HUA Deng-xin, et al. Design of a high-speed data acquisition system based on FPGA for laser radar[J]. Acta Photonica Sinica, 2012, 41(8): 967-971.辛文辉, 李仕春, 华灯鑫, 等. 基于FPGA的激光雷达高速数据采集系统设计[J]. 光子学报, 2012, 41(8): 967-971.

[11] GUO Xiao-tong, YANG Qiu-xiang. Research on an asymmetric gaussian fitting peak-detection algorithm based on FPGA state machine[J]. Electronic Design Engineering, 2018, 26(1): 161-165.郭晓彤, 杨秋翔. 基于FPGA状态机非对称高斯拟合寻峰算法的研究[J]. 电子设计工程, 2018, 26(1): 161-165.

[12] ZOU Jing, LIU Yi-min. Design of workflow engine based on finite state machine[J]. Computer Application and Softeware, 2018, 35(8): 60-65.邹晶,刘毅敏, 基于有限状态机的工作流引擎的设计[J]. 计算机应用与软件, 2018, 35(8): 60-65.

[13] HADJICOSTIS C N. Periodic and non-concurrent error detection and identification in one-hot encoded FSMs[J]. Automatica, 2004, 40(10): 1665-1676.

[14] BI Xing, TANG Chao-jing. Security analysis of TLS implementations based on state machine learning algorithm[J]. Journal of Systems Engineering and Electronics, 2018, 40(12): 2810-2815.毕兴,唐朝京, 基于状态机学习算法的TLS实现库安全性分析[J]. 系统工程与电子技术, 2018, 40(12): 2810-2815.

[15] LI Yi, QIAN Li, ZHOU Ci-ming, et al. Multiple-octave-spanning vibration sensing based on simultaneous vector demodulation of 499 Fizeau interference signals from identical ultra-weak fiber Bragg gratings over 2.5 km.[J]. Sensors, 2018, 18(2): 210.

[16] LIENARD J S. Quantifying vocal effort from the shape of the one-third octave long-term-average spectrum of speech[J]. The Journal of the Acoustical Society of America, 2019, 146(4): EL369. Foundation item: National Natural Science Foundation of China (Nos. 61775173, 61975157), Pre-research Field Foundation of China (No. 6140243010116QT69001), Projects of Innovation Zone (No. 18H86305ZT00101602)