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Sun Zeming, Pang Peichuan, Zhang Qian, et al. GIS 32(6): 9–13.
breakdown point location method based on audible sound Cheng Shuyi, Li Yanqing, Lyu Fangcheng, et al. Direction
wave[J]. Journal of Xi’an Jiaotong University, 2018, finding of transformer partial discharge ultrasonic array
52(10): 88–94, 109. signal based on improved fast DOA algorithm[J] Power
[5] 陈敏, 白尧, 汪涛, 等. GIS 设备击穿放电定位技术研究与现 Automation Equipment, 2012, 32(6): 9–13.
场应用 [J]. 高压电器, 2014, 50(6): 81–90. [15] Wolper J. A mathematical introduction to compressive
Chen Min, Bai Yao, Wang Tao, et al. Research and sensing[J]. Computing Reviews, 2014, 55(1): 8.
field application of breakdown discharge location technol- [16] Dai W, Milenkovic O. Subspace pursuit for compressive
ogy for GIS equipment[J]. High Voltage Apparatus, 2014, sensing signal reconstruction[J]. IEEE Transactions on In-
50(6): 81–90. formation Theory, 2009, 55(5): 2230–2249.
[6] 李杰, 王辉, 郑建, 等. 特高压 GIS 设备交接试验击穿放电定 [17] Cohen A, Dahmen W, Devore R. Compressed sensing and
位技术研究 [J]. 山东电力技术, 2018, 45(7): 11–14. best k-term approximation[J] The Journal of the Ameri-
Li Jie, Wang Hui, Zheng Jian, et al. Research on break- can Mathematical Society, 2009, 22(1): 211–231.
down discharge location technology for handover test of [18] Candès E J, Tao T. Decoding by linear programming[J].
UHV GIS equipment[J]. Shandong Electric Power Tech- IEEE Transactions on Information Theory, 2005, 51(12):
nology, 2018, 45(7): 11–14. 4203–4215.
[7] 腾云, 赵科, 贾勇勇, 等. 特高压 GIS 击穿定位方法及其应用 [19] Donoho D L, Elad M. Optimally sparse representation
研究 [J]. 电力工程技术, 2016, 35(4): 24–27. in general (nonorthogonal) dictionaries via L1 minimiza-
Teng Yun, Zhao Ke, Jia Yongyong, et al. Research tion[J]. Proceedings of the NationalAcademy of Sciences
on UHV GIS breakdown location method and its ap- of the United States of America, 2003, 100(5): 2197–2202.
plication[J]. Power Engineering Technology, 2016, 35(4): [20] Donoho D L, Elad M, Temlyakov V N. Stable recovery
24–27. of sparse overcomplete representations in the presence of
[8] 孙泽明, 庞培川, 张芊, 等. 基于可听声波的 GIS 击穿点定位 noise[J]. IEEE Transactions on Information Theory, 2006,
方法 [J]. 西安交通大学学报, 2018, 52(10): 88–94, 109. 52(1): 6–18.
Sun Zeming, Pang Peichuan, Zhang Qian, et al. GIS [21] Chen S S, Donoho D L, Saunders M A. Atomic decom-
breakdown point location method based on audible sound position by basis pursuit[J]. SIAM Journal on Scientific
wave[J]. Journal of Xi’an Jiaotong University, 2018, Computing, 1998, 20(1): 33–61.
52(10): 88–94, 109. [22] Tibshirani R. Regression shrinkage and selection via the
[9] 刘通, 腾云, 杨景刚, 等. 基于可听声的 GIL 设备交流耐压击 LASSO[J]. Journal of the Royal Statistical Society Se-
穿放电定位研究 [J]. 高压电器, 2021, 57(1): 26–32, 40. ries B (Methodological), 1996, 58(1): 267–288.
Liu Tong, Teng Yun, Yang Jinggang, et al. Study on AC [23] Tropp J A, Gisbert A C. Signal recovery from ran-
withstand voltage breakdown discharge location of GIL dom measurements via orthogonal matching pursuit[J].
equipment based on audible[J]. High Voltage Apparatus, IEEE Transactions on Information Theory, 2007, 53(12):
2021, 57(1): 26–32, 40. 4655–4666.
[10] Tang G, Bhaskar B N, Shah P, et al. Compressed sensing [24] Needell D, Vershynin R. Signal recovery from incomplete
off the grid[J]. IEEE Transactions on Information Theory, and inaccurate measurements via regularized orthogonal
2013, 59(11): 7465–7490. matching pursuit[J]. IEEE Journal of Selected Topics in
[11] 檀转霞. 声阵列宽带信号 DOA 估计算法与应用研究 [D]. 合 Signal Processing, 2010, 4(2): 310–316.
肥: 安徽大学, 2016. [25] Donoho D L, Tsaig Y, Drori I, et al. Sparse solution of
[12] 罗日成, 李卫国, 文习山. 大型变压器局部放电多目标定位实 underdetermined linear equations by stagewise orthogonal
验 [J]. 高电压技术, 2007(8): 71–76. matching pursuit[J]. IEEE Transactions on Information
Luo Richeng, Li Weiguo, Wen Xishan. Multi target Theory, 2012, 58(2): 1094–1121.
location experiment of partial discharge in large trans- [26] Dai W, Milenkovic O. Subspace pursuit for compressive
former[J]. High Voltage Technology, 2007(8): 71–76. sensing signal reconstruction[J]. IEEE Transactions on In-
[13] 罗勇芬, 李彦明, 刘丽春. 基于超高频和超声波相控接收原 formation Theory, 2009, 55(5): 2230–2249.
理的油中局部放电定位法仿真研究 [J]. 电工技术学报, 2004, [27] Needell D, Vershynin R. Uniform uncertainty principle
19(1): 35–39. and signal recovery via regularized orthogonal matching
Luo Yongfen, Li Yanming, Liu Lichun. Simulation re- pursuit[J]. Foundations of Computational Mathematics,
search on partial discharge location method in oil based on 2009, 9(3): 317–334.
UHF and ultrasonic phased receiving principle[J]. Journal [28] Fyhn K, Duarte M F, Jensen S H. Compressive parameter
of Electrotechnics, 2004, 19(1): 35–39. estimation for sparse translation-invariant signals using
[14] 程述一, 李燕青, 律方成, 等. 基于改进 Fast DOA 算法的变 polar interpolation[J]. IEEE Transaction on Signal Pro-
压器局部放电超声阵列信号测向 [J]. 电力自动化设备, 2012, cessing, 2014, 63(4): 870–881.