[1] |
庞浩,李东霞,俎云霄,等. 应用FFT进行电力系统谐波分析的改进算法[J].中国电机工程学报,2003,23(6): 50-54.Pang H, Li D X, Zu Y X, et al. An improved algorithm for harmonic analysis of power system using FFT technique[J]. Proceedings of the CSEE, 2003, 23(6): 50-54.
|
[2] |
Zhang F S, Geng Z X, Yuan W. The algorithm of interpolating windowed FFT for harmonic analysis of electric power system[J]. IEEE Transactions on Power Delivery, 2001, 16(2): 160-164.
|
[3] |
Mojiri M, Karimi-Ghartemani M, Bakhshai A. Time-domain signal analysis using adaptive notch filter[J]. IEEE Transactions on Signal Processing, 2007, 55(1): 85-93.
|
[4] |
刘欢,褚建新,俞万能. 改进型自适应陷波器电力系统频率估计方法[J]. 上海海事大学学报, 2007, 28(3): 24-27.Liu H, Chu J X, Yu W N, Accurate estimation of power system frequency using a modified adaptive notch filter[J]. Joumal of Shanghai Maritime University, 2007, 28(3): 24-27.
|
[5] |
Yazdekhasti A, Mojiri M. A method for harmonic extraction from power systems signals based on adaptive notch filter[J]. Advances in Computational Mathematics and its Applications, 2012, 1(1): 40-46.
|
[6] |
Chien W C, Lin C M, Singh P K, et al. MMIC compact filters with third harmonic suppression for V-band applications[J]. Microwave and Wireless Components Letters, 2011, 21(6): 295-297.
|
[7] |
薛蕙, 罗红. 小波变换与傅里叶变换相结合的暂态谐波分析方法[J]. 中国农业大学学报, 2007, 12(6): 89-92.Xue H, Luo H. Transient harmonic analysis algorithm using wavelet transform and Fourier transform [J]. Journal of China Agricultural University, 2007, 12(6): 89-92.
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[8] |
Nguyen N, Milanfar P. A wavelet-based interpolation restoration method for superresolution (wavelet superresolution)[J]. Circuits, Systems and Signal Processing, 2000, 19(4): 321-338.
|
[9] |
Stephanakis I M, Kollias S. Optimal wavelet filter banks for regularized restoration of noisy images [J]. Circuits, Systems and Signal Processing, 2000, 19(2): 99-119.
|
[10] |
郑军, 颜文俊, 诸静. 基于尺度滤波与小波去噪的PID继电整定[J]. 控制与决策, 2005, 20(7): 811-814,833.Zheng J, Yan W J, Zhu J. Relay auto-turning for PID control based on scale filter and wavelet denoising [J]. Control and Decision, 2005, 20(7): 811-814,833.
|
[11] |
张玉璘, 陈伟民, 杨建春, 等. 小波变换自适应滤波器及其在主动噪声控制中的应用[J].控制与决策, 2002, 17(1): 107-110.Zhang Y L, Chen W M, Yang J C, et al. Wavelet transformation adaptive filter and its application in active noise control [J]. Control and Decision, 2002, 17(1): 107-110.
|
[12] |
倪元敏, 张晓冰. 畸变信号条件下电能合理计量方法探讨[J]. 电力系统自动化, 2008, 32(17): 88-91.Ni Y M, Zhang X B. Research on a new method of rational electric energy measurement under the distorted signals condition [J]. Automation of Electric Power Systems, 2008, 32(17): 88-91.
|
[13] |
Wakileh G J. 电力系统谐波--基本原理、分析方法和滤波器设计[M]. 徐证译, 北京: 机械工业出版社, 2003.
|
[14] |
Maragos P, Kaiser J F, Quatieri T F. Energy separation in signal modulations with application to speech analysis [J]. IEEE Transactions on Signal Processing, 1993, 41(10): 3024-3051.
|
[15] |
Sristi P, Lu W S, Antoniou A. A new variable-step-size LMS algorithm and its application in subband adaptive filtering for echo cancellation[J]. IEEE International Symposium on Circuits and Systems, 2012, 2: 721-724.
|
[1] |
庞浩,李东霞,俎云霄,等. 应用FFT进行电力系统谐波分析的改进算法[J].中国电机工程学报,2003,23(6): 50-54.Pang H, Li D X, Zu Y X, et al. An improved algorithm for harmonic analysis of power system using FFT technique[J]. Proceedings of the CSEE, 2003, 23(6): 50-54.
|
[2] |
Zhang F S, Geng Z X, Yuan W. The algorithm of interpolating windowed FFT for harmonic analysis of electric power system[J]. IEEE Transactions on Power Delivery, 2001, 16(2): 160-164.
|
[3] |
Mojiri M, Karimi-Ghartemani M, Bakhshai A. Time-domain signal analysis using adaptive notch filter[J]. IEEE Transactions on Signal Processing, 2007, 55(1): 85-93.
|
[4] |
刘欢,褚建新,俞万能. 改进型自适应陷波器电力系统频率估计方法[J]. 上海海事大学学报, 2007, 28(3): 24-27.Liu H, Chu J X, Yu W N, Accurate estimation of power system frequency using a modified adaptive notch filter[J]. Joumal of Shanghai Maritime University, 2007, 28(3): 24-27.
|
[5] |
Yazdekhasti A, Mojiri M. A method for harmonic extraction from power systems signals based on adaptive notch filter[J]. Advances in Computational Mathematics and its Applications, 2012, 1(1): 40-46.
|
[6] |
Chien W C, Lin C M, Singh P K, et al. MMIC compact filters with third harmonic suppression for V-band applications[J]. Microwave and Wireless Components Letters, 2011, 21(6): 295-297.
|
[7] |
薛蕙, 罗红. 小波变换与傅里叶变换相结合的暂态谐波分析方法[J]. 中国农业大学学报, 2007, 12(6): 89-92.Xue H, Luo H. Transient harmonic analysis algorithm using wavelet transform and Fourier transform [J]. Journal of China Agricultural University, 2007, 12(6): 89-92.
|
[8] |
Nguyen N, Milanfar P. A wavelet-based interpolation restoration method for superresolution (wavelet superresolution)[J]. Circuits, Systems and Signal Processing, 2000, 19(4): 321-338.
|
[9] |
Stephanakis I M, Kollias S. Optimal wavelet filter banks for regularized restoration of noisy images [J]. Circuits, Systems and Signal Processing, 2000, 19(2): 99-119.
|
[10] |
郑军, 颜文俊, 诸静. 基于尺度滤波与小波去噪的PID继电整定[J]. 控制与决策, 2005, 20(7): 811-814,833.Zheng J, Yan W J, Zhu J. Relay auto-turning for PID control based on scale filter and wavelet denoising [J]. Control and Decision, 2005, 20(7): 811-814,833.
|
[11] |
张玉璘, 陈伟民, 杨建春, 等. 小波变换自适应滤波器及其在主动噪声控制中的应用[J].控制与决策, 2002, 17(1): 107-110.Zhang Y L, Chen W M, Yang J C, et al. Wavelet transformation adaptive filter and its application in active noise control [J]. Control and Decision, 2002, 17(1): 107-110.
|
[12] |
倪元敏, 张晓冰. 畸变信号条件下电能合理计量方法探讨[J]. 电力系统自动化, 2008, 32(17): 88-91.Ni Y M, Zhang X B. Research on a new method of rational electric energy measurement under the distorted signals condition [J]. Automation of Electric Power Systems, 2008, 32(17): 88-91.
|
[13] |
Wakileh G J. 电力系统谐波--基本原理、分析方法和滤波器设计[M]. 徐证译, 北京: 机械工业出版社, 2003.
|
[14] |
Maragos P, Kaiser J F, Quatieri T F. Energy separation in signal modulations with application to speech analysis [J]. IEEE Transactions on Signal Processing, 1993, 41(10): 3024-3051.
|
[15] |
Sristi P, Lu W S, Antoniou A. A new variable-step-size LMS algorithm and its application in subband adaptive filtering for echo cancellation[J]. IEEE International Symposium on Circuits and Systems, 2012, 2: 721-724.
|