[1] 刘庆兆. 脉冲辐射场诊断技术 [M].北京: 科学出版社, 1994. LIU Qingzhao. Pulse Radiation Field Diagnosis Technology[M]. Beijing: Science Press, 1994.

    刘庆兆. 脉冲辐射场诊断技术 [M].北京: 科学出版社, 1994. LIU Qingzhao. Pulse Radiation Field Diagnosis Technology[M]. Beijing: Science Press, 1994.

[2] John G P, Dimitris G M.数字信号处理: 原理、算法与应用 [M].张晓林, 译. 北京: 电子工业出版社, 2004. John G P, Dimitris G M. Digital Signal Processing: Principles, Algorithms and Applications[M]. Translated by ZHANG Xiaolin. Beijing: Electronics Industry Press, 2004.

    John G P, Dimitris G M.数字信号处理: 原理、算法与应用 [M].张晓林, 译. 北京: 电子工业出版社, 2004. John G P, Dimitris G M. Digital Signal Processing: Principles, Algorithms and Applications[M]. Translated by ZHANG Xiaolin. Beijing: Electronics Industry Press, 2004.

[3] Duvillaret L, Garet F, Coutaz J. Highly precise determination of optical constants and sample thickness in terahertz time-domain spectroscopy[J]. Appl. Opt., 1999, 38(2): 409-415.

    Duvillaret L, Garet F, Coutaz J. Highly precise determination of optical constants and sample thickness in terahertz time-domain spectroscopy[J]. Appl. Opt., 1999, 38(2): 409-415.

[4] 王秀敏. 太赫兹光谱分析中用误差理论确定样品厚度的研究 [J].激光与红外, 2009, 39(8): 884-886. WANG Xiumin. Study on the determination of sample thickness using error theory in terahertz spectrum analysis[J]. Laser and Infrared, 2009, 39(8): 884-886.

    王秀敏. 太赫兹光谱分析中用误差理论确定样品厚度的研究 [J].激光与红外, 2009, 39(8): 884-886. WANG Xiumin. Study on the determination of sample thickness using error theory in terahertz spectrum analysis[J]. Laser and Infrared, 2009, 39(8): 884-886.

[5] 李丽娟, 周明星, 任姣姣. 基于太赫兹时域光谱的胶层厚度均匀性检测[J].激光与红外, 2014, 44(7): 801-804. LI Lijuan, ZHOU Mingxing, REN Ye. Detection of uniformity of adhesive layer thickness based on terahertz time domain spectroscopy[J]. Laser and Infrared, 2014, 44(7): 801- 804.

    李丽娟, 周明星, 任姣姣. 基于太赫兹时域光谱的胶层厚度均匀性检测[J].激光与红外, 2014, 44(7): 801-804. LI Lijuan, ZHOU Mingxing, REN Ye. Detection of uniformity of adhesive layer thickness based on terahertz time domain spectroscopy[J]. Laser and Infrared, 2014, 44(7): 801- 804.

[6] 陆庆华, 陈玉洁, 严盈富. 薄膜包衣厚度测量方法分析 [J].南昌航空大学学报, 2014, 28(4): 76-82. LU Qinghua, CHEN Yujie, YAN Yingfu. Analysis of measurement methods of film coating thickness[J]. Journal of Nanchang Hangkong University, 2014, 28(4): 76-82.

    陆庆华, 陈玉洁, 严盈富. 薄膜包衣厚度测量方法分析 [J].南昌航空大学学报, 2014, 28(4): 76-82. LU Qinghua, CHEN Yujie, YAN Yingfu. Analysis of measurement methods of film coating thickness[J]. Journal of Nanchang Hangkong University, 2014, 28(4): 76-82.

[7] 寇宽, 赵国忠, 刘英. 利用太赫兹时域光谱同时确定样品厚度和折射率[J].中国激光, 2015, 42(8): 0815001.1-081500.6. KOU Kuan, ZHAO Guozhong, LIU Ying. Simultaneous determination of sample thickness and refractive index using terahertz time domain spectroscopy[J]. China Laser, 2015, 42(8): 0815001.1-081500.6.

    寇宽, 赵国忠, 刘英. 利用太赫兹时域光谱同时确定样品厚度和折射率[J].中国激光, 2015, 42(8): 0815001.1-081500.6. KOU Kuan, ZHAO Guozhong, LIU Ying. Simultaneous determination of sample thickness and refractive index using terahertz time domain spectroscopy[J]. China Laser, 2015, 42(8): 0815001.1-081500.6.

[8] 刘子烨, 刘建军, 洪治. 基于光子混频连续太赫兹波的厚度检测 [J].激光技术, 2016, 40(4): 496-499. LIU Zizhen, LIU Jianjun, HONG Zhi. Thickness detection of continuous terahertz waves based on photon mixing[J]. Laser Technology, 2016, 40(4): 496-499.

    刘子烨, 刘建军, 洪治. 基于光子混频连续太赫兹波的厚度检测 [J].激光技术, 2016, 40(4): 496-499. LIU Zizhen, LIU Jianjun, HONG Zhi. Thickness detection of continuous terahertz waves based on photon mixing[J]. Laser Technology, 2016, 40(4): 496-499.

[9] Zeiler MD, Krishnan D, Taylor GW, et al. Deconvolutional networks[C]//Computer Vision and Pattern Recognition (CVPR), IEEE, 2010: 2528-2535.

    Zeiler MD, Krishnan D, Taylor GW, et al. Deconvolutional networks[C]//Computer Vision and Pattern Recognition (CVPR), IEEE, 2010: 2528-2535.

[10] Zeiler M D, Taylor G W, Fergus R. Adaptive deconvolutional networks for mid and high level feature learning[C]//Computer Vision (ICCV), IEEE, 2011: 2018-2025.

    Zeiler M D, Taylor G W, Fergus R. Adaptive deconvolutional networks for mid and high level feature learning[C]//Computer Vision (ICCV), IEEE, 2011: 2018-2025.

[11] 蔡川, 李旭光, 尹毅, 等. 空间电荷测量信号恢复中的频域反卷积技术及实现[J].电工技术学报, 2009, 24(10): 165-169. CAI Chuan, LI Xuguang, YIN Yi, et al. Frequency domain deconvolution technology and implementation in space charge measurement signal recovery[J]. Electrical Engineering Technology Journal, 2009, 24(10): 165-169.

    蔡川, 李旭光, 尹毅, 等. 空间电荷测量信号恢复中的频域反卷积技术及实现[J].电工技术学报, 2009, 24(10): 165-169. CAI Chuan, LI Xuguang, YIN Yi, et al. Frequency domain deconvolution technology and implementation in space charge measurement signal recovery[J]. Electrical Engineering Technology Journal, 2009, 24(10): 165-169.

[12] 吴超一, 钟力生, 王霞, 等. 脉冲电声法空间电荷测量波形恢复的数据处理[J].中国电机工程学报, 2005(16): 137-140. WU Chaoyi, ZHONG Lisheng, WANG Xia, et al. Data Processing of Waveform Recovery of Pulsed Electroacoustic Space Charge Measurement[J]. Transactions of China Electrical Engineering, 2005(16): 137-140.

    吴超一, 钟力生, 王霞, 等. 脉冲电声法空间电荷测量波形恢复的数据处理[J].中国电机工程学报, 2005(16): 137-140. WU Chaoyi, ZHONG Lisheng, WANG Xia, et al. Data Processing of Waveform Recovery of Pulsed Electroacoustic Space Charge Measurement[J]. Transactions of China Electrical Engineering, 2005(16): 137-140.

[13] Tanaka Y, Hanawa K, Suzuki K, et al. Attenuation recovery technique for acoustic wave propagation in PEA method[C]//Electrical Insulating Materials, Proceedings of 2001 International Symposium on, 2001: 407-410.

    Tanaka Y, Hanawa K, Suzuki K, et al. Attenuation recovery technique for acoustic wave propagation in PEA method[C]//Electrical Insulating Materials, Proceedings of 2001 International Symposium on, 2001: 407-410.

[14] 刘明亮, 蔡永泉, 饶敏, 等. 用卷积运算实现反卷积 [J].电子学报, 2000(5): 111-112. LIU Mingliang, CAI Yongquan, RAO Min, et al. Deconvolution with Convolution Operation [J]. Chinese Journal of Electronics, 2000(5): 111-112.

    刘明亮, 蔡永泉, 饶敏, 等. 用卷积运算实现反卷积 [J].电子学报, 2000(5): 111-112. LIU Mingliang, CAI Yongquan, RAO Min, et al. Deconvolution with Convolution Operation [J]. Chinese Journal of Electronics, 2000(5): 111-112.

[15] 邱程, 付红卫, 王欣, 等. 反卷积算法在超宽带时域测量中的应用 [J].探测与控制学报, 2013, 35(3): 80-84. QIU Cheng, FU Hongwei, WANG Xin, et al. Application of deconvolution algorithm in ultra-wideband time domain measurement[J]. Journal of Detection and Control, 2013, 35(3): 80-84.

    邱程, 付红卫, 王欣, 等. 反卷积算法在超宽带时域测量中的应用 [J].探测与控制学报, 2013, 35(3): 80-84. QIU Cheng, FU Hongwei, WANG Xin, et al. Application of deconvolution algorithm in ultra-wideband time domain measurement[J]. Journal of Detection and Control, 2013, 35(3): 80-84.

[16] Parruck B, Riad S M. An optimization criterion for iterative deconvolution[J]. IEEE Transactions on Instrumentation and Measurement, 1983, 32(1): 137-140.

    Parruck B, Riad S M. An optimization criterion for iterative deconvolution[J]. IEEE Transactions on Instrumentation and Measurement, 1983, 32(1): 137-140.

[17] 扈罗全, 郑飞虎, 张冶文. 用于电介质中空间电荷分布测量的Tikhonov反卷积算法 [J].计算物理, 2004(5): 432-438. LUO Luoquan, ZHENG Feihu, ZHANG Yewen. Tikhonov deconvolution algorithm for measuring space charge distribution in dielectrics[J]. Computational Physics, 2004(5): 432-438.

    扈罗全, 郑飞虎, 张冶文. 用于电介质中空间电荷分布测量的Tikhonov反卷积算法 [J].计算物理, 2004(5): 432-438. LUO Luoquan, ZHENG Feihu, ZHANG Yewen. Tikhonov deconvolution algorithm for measuring space charge distribution in dielectrics[J]. Computational Physics, 2004(5): 432-438.

[18] 姚若河. 时域卷积反演的一个新算法 [J].桂林电子工业学院学报, 1988(2): 38-42. YAO Ruohe. A New Algorithm for Time Domain Convolution Inversion[J]. Journal of Guilin Institute of Electronics Technology, 1988(2): 38-42.

    姚若河. 时域卷积反演的一个新算法 [J].桂林电子工业学院学报, 1988(2): 38-42. YAO Ruohe. A New Algorithm for Time Domain Convolution Inversion[J]. Journal of Guilin Institute of Electronics Technology, 1988(2): 38-42.

[19] 高晋占. 微弱信号检测 [M].北京: 清华大学出版社, 2004. GAO Jinzhan. Weak Signal Detection[M]. Beijing: Tsinghua University Press, 2004.

    高晋占. 微弱信号检测 [M].北京: 清华大学出版社, 2004. GAO Jinzhan. Weak Signal Detection[M]. Beijing: Tsinghua University Press, 2004.

[20] 许峰, 李开成, 王可. 一种基于相关算法的电能质量信号定位方法 [J].电测与仪表, 2015, 52(3):1-5. XU Feng, LI Kaicheng, WANG Ke. A Power Quality Signal Positioning Method Based on Correlation Algorithm[J]. Electrical Measurement &Instrumentation, 2015, 52(3): 1-5.

    许峰, 李开成, 王可. 一种基于相关算法的电能质量信号定位方法 [J].电测与仪表, 2015, 52(3):1-5. XU Feng, LI Kaicheng, WANG Ke. A Power Quality Signal Positioning Method Based on Correlation Algorithm[J]. Electrical Measurement &Instrumentation, 2015, 52(3): 1-5.

[21] 胡大红, 姚志鹏. 自相关函数在时间序列模型识别中的应用 [J].襄樊学院学报, 2011, 32(5): 15-18. HU Dahong, YAO Zhipeng. Application of autocorrelation function in time series model identification[J]. Journal of Xiangfan University, 2011, 32(5): 15-18.

    胡大红, 姚志鹏. 自相关函数在时间序列模型识别中的应用 [J].襄樊学院学报, 2011, 32(5): 15-18. HU Dahong, YAO Zhipeng. Application of autocorrelation function in time series model identification[J]. Journal of Xiangfan University, 2011, 32(5): 15-18.

[22] 刘正平, 臧观建, 陈俊杰. 微弱周期脉冲信号的自相关 -混沌系统联合检测方法[J].噪声与振动控制, 2007(5): 63-65. LIU Zhengping, ZANG Guanjian, CHEN Junjie. Auto- correlation-chaotic system detection method for weak periodic pulse signal[J]. Noise and Vibration Control, 2007(5): 63-65.

    刘正平, 臧观建, 陈俊杰. 微弱周期脉冲信号的自相关 -混沌系统联合检测方法[J].噪声与振动控制, 2007(5): 63-65. LIU Zhengping, ZANG Guanjian, CHEN Junjie. Auto- correlation-chaotic system detection method for weak periodic pulse signal[J]. Noise and Vibration Control, 2007(5): 63-65.

[23] 吕文秋. 强噪声中周期信号的数字重相关检测 [J]. 厦门大学学报: 自然科学版, 1990, 29(1): 34-38． LYU Wenqiu. Digital recorrelation detection of periodic signals in strong noise[J]. Journal of Xiamen University: Natural Science Edition, 1990, 29(1): 34-38.

    吕文秋. 强噪声中周期信号的数字重相关检测 [J]. 厦门大学学报: 自然科学版, 1990, 29(1): 34-38． LYU Wenqiu. Digital recorrelation detection of periodic signals in strong noise[J]. Journal of Xiamen University: Natural Science Edition, 1990, 29(1): 34-38.

[24] 范晓志, 王长广, 黄晓红, 等. 基于小波分析和多重自相关法的微弱信号检测技术[J].计算机应用与软件, 2007, 24(5):40-41, 44. FAN Xiaozhi, WANG Changguang, HUANG Xiaohong, et al. Weak signal detection technology based on wavelet analysis and multiple autocorrelation methods[J]. Computer Applications and Software, 2007, 24(5): 40-41.

    范晓志, 王长广, 黄晓红, 等. 基于小波分析和多重自相关法的微弱信号检测技术[J].计算机应用与软件, 2007, 24(5):40-41, 44. FAN Xiaozhi, WANG Changguang, HUANG Xiaohong, et al. Weak signal detection technology based on wavelet analysis and multiple autocorrelation methods[J]. Computer Applications and Software, 2007, 24(5): 40-41.