Page 88 - 《应用声学》2024年第6期
P. 88
1264 2024 年 11 月
Han Zeyang, Xu Yougen, Liu Zhiwen. Direction-of-arrival ters, 2009, 16(7): 576–579.
estimation of wideband chirp signals in the presence of [21] Andria G, Savino M. Interpolated smoothed pseudo
multipath propagation[J]. Journal of Signal Processing, Wigner-Ville distribution for accurate spectrum analy-
2019, 35(8): 1293–1299. sis[J]. IEEE Transactions on Instrumentation and Mea-
[10] 金燕, 黄振, 陆建 华. 基于 FRFT 的线性 调频多 径信 号 surement, 1996, 45(4): 818–823.
分离算法 [J]. 清华大学学报 (自然科学版), 2008, 48(10): [22] 孙同晶, 刘桐, 杨阳. 多阶次分数阶傅里叶域特征融合的主
1617–1620. 动声呐目标稀疏表示分类方法 [J]. 电子与信息学报, 2021,
Jin Yan, Huang Zhen, Lu Jianhua. Separation of multi- 43(3): 809–816.
path LFM signals based on fractional Fourier trans- Sun Tongjing, Liu Tong, Yang Yang. Sparse represen-
form[J]. Journal of Tsinghua University(Science and Tech- tation classification method for active sonar target based
nology), 2008, 48(10): 1617–1620. on multi-order fractional Fourier domain feature fusion[J].
[11] 林正青, 牟林, 彭圆, 等. 时频分布重排方法在水下目标回声 Journal of Electronics & Information Technology, 2021,
识别中的应用 [J]. 应用声学, 2014, 33(1): 87–94. 43(3): 809–816.
Lin Zhengqing, Mu Lin, Peng Yuan, et al. Application of
[23] 顾怡鸣, 宫在晓, 陈艳丽, 等. 浅海双基地有源探测调频信号
time-frequency distribution reassignment method to un- 直达波消除 [J]. 声学学报, 2022, 47(2): 187–197.
derwater target echo classification[J]. Journal of Applied Gu Yiming, Gong Zaixiao, Chen Yanli, et al. Direct
Acoustics, 2014, 33(1): 87–94. blast cancelling of the frequency modulation signals for
[12] 刘峰, 罗再磊, 沈同圣, 等. 时频谱图和数据增强的水声信号
bistatic active sonar in shallow water[J]. Acta Acustica,
深度学习目标识别方法 [J]. 应用声学, 2021, 40(4): 518–524.
2022, 47(2): 187–197.
Liu Feng, Luo Zailei, Shen Tongsheng, et al. Deep
[24] 薛城, 顾怡鸣, 宫在晓, 等. 宽带双曲调频信号参数化时频分
learning target recognition method of underwater acous-
析波达方向估计 [J]. 声学学报, 2023, 48(1): 27–40.
tic signal based on data augmentation and time-frequency
Xue Cheng, Gu Yiming, Gong Zaixiao, et al. Direction of
spectrum[J]. Journal of Applied Acoustics, 2021, 40(4):
arrival estimation of wideband hyperbolic frequency mod-
518–524.
ulation signals using parameterized time-frequency anal-
[13] Kwok H K, Jones D L. Improved instantaneous frequency
ysis[J]. Acta Acustica, 2023, 48(1): 27–40.
estimation using an adaptive short-time Fourier trans-
[25] Yang Y, Peng Z K, Dong X J, et al. General parameter-
form[J]. IEEE Transactions on Signal Processing, 2000,
ized time-frequency transform[J]. IEEE Transactions on
48(10): 2964–2972.
Signal Processing, 2014, 62(11): 2751–2764.
[14] Ferguson B G. Time-frequency signal analysis of hy-
[26] 汤渭霖. 声呐目标回波的亮点模型 [J]. 声学学报, 1994, 19(2):
drophone data[J]. IEEE Journal of Oceanic Engineering,
92–100.
1996, 21(4): 537–544.
Tang Weilin. Highlight model of echoes from sonar tar-
[15] Moghadasian S S. A fast and accurate method for param-
gets[J]. Acta Acustica, 1994, 19(2): 92–100.
eter estimation of multi-component LFM signals[J]. IEEE
[27] Abraham D A, Lyons A P. Novel physical interpreta-
Signal Processing Letters, 2022, 29: 1719–1723.
tions of K-distributed reverberation[J]. IEEE Journal of
[16] Álvarez R, Borbor E, Grijalva F. Comparison of meth-
Oceanic Engineering, 2002, 27(4): 800–813.
ods for signal analysis in the time-frequency domain[C].
[28] Fowle E. The design of FM pulse compression signals[J].
2019 IEEE Fourth Ecuador Technical Chapters Meet-
ing(ETCM), 2019: 1–6. IEEE Transactions on Information Theory, 1964, 10(1):
[17] Subbarao M V, Samundiswary P. Time-frequency analy- 61–67.
sis of non-stationary signals using frequency slice wavelet [29] Ma N, Wang J X. Dynamic threshold for SPWVD parame-
transform[C]. 2016 10th International Conference on In- ter estimation based on Otsu algorithm[J]. Journal of Sys-
telligent Systems and Control(ISCO), 2016: 1–6. tems Engineering and Electronics, 2013, 24(6): 919–924.
[18] 刘建设, 朱广平, 刘冰, 等. 时频域去模糊提取目标回波亮 [30] 刘歌, 汪洪艳, 张国毅. 基于时频图像处理方法的多分量信号
点 [J]. 哈尔滨工程大学学报, 2020, 41(9): 1340–1345. 分离 [J]. 电子信息对抗技术, 2017, 32(2): 13–18, 57.
Liu Jianshe, Zhu Guangping, Liu Bing, et al. Time- Liu Ge, Wang Hongyan, Zhang Guoyi. Separation of
frequency domain deblurring for target echo highlight multi-component signals based on image processing in
extraction[J]. Journal of Harbin Engineering University, time frequency domain[J]. Electronic Information Warfare
2020, 41(9): 1340–1345. Technology, 2017, 32(2): 13–18, 57.
[19] Guo W, Piao S C, Yang T C, et al. High-resolution power [31] 张驰, 马晓川, 李璇, 等. 修正的混响多普勒扩展非对称统计
spectral estimation method using deconvolution[J]. IEEE 模型 [J]. 声学学报, 2018, 43(6): 943–950.
Journal of Oceanic Engineering, 2020, 45(2): 489–499. Zhang Chi, Ma Xiaochuan, Li Xuan, et al. Modified asym-
[20] Lu W K, Zhang Q. Deconvolutive short-time Fourier metric statistical model for the reverberation Doppler
transform spectrogram[J]. IEEE Signal Processing Let- spread spectrum[J]. Acta Acustica, 2018, 43(6): 943–950.
