Survey on forced oscillations in power system

Kosterev DN, Taylor CW, Mittelstadt WA (1999) Model validation for the August 10, 1996 WSCC system outage. IEEE Trans Power Syst 14(3):967–979

Venkatasubramanian V, Li Y (2004) Analysis of 1996 western American electric blackouts. In: Proceedings of Bulk power system dynamics and control-VI, Cortina d’Ampezzo, Italy, pp 22–27

Zhou N, Huang Z, Tuffner F, Jin S, Lin J, Hauer M (2010) Final project report oscillation detection and analysis [online]. uc-ciee.org/downloads/ODA_Final_Report.pdf

Trudnowski DJ, Pierre JW (2009) Overview of algorithms for estimating swing modes from measured responses. In: 2009 IEEE Power Energy Society General Meeting (PES ’09), pp 1–8

Vanfretti L, Dosiek L, Pierre JW et al (2011) Application of ambient analysis techniques for the estimation of electromechanical oscillations from measured PMU data in four different power systems. Eur Trans Electr Power 21(4):1640–1656

Ness JV (1966) Response of large power systems to cyclic load variations. IEEE Power Appar Syst 7:723–727

Follum J, Pierre JW (2013) Initial results in the detection and estimation of forced oscillations in power systems. In: Proceedings of 2013 North American Power Symposium, pp 1–6

Vournas C, Krassas N (1991) Analysis of forced oscillations in a multimachine power system. Control 2:443–448

Myers RB, Trudnowski DJ (2013) Effects of forced oscillations on spectral-based mode-shape estimation. In: Proceedings of IEEE Power Energy Society General Meeting

Pinneilo JA, Ness JEV (1971) Dynamic response of a large power system to a cyclic load produced by a nuclear accelerator. IEEE Trans Power Appar Syst 90(4):1856–1862

Rao K (1988) Studies on power systems that are subjected to cyclic loads. IEEE Trans Power Syst 3(1):31–37

Reddy PB, Hiskens IA (2005) Limit-induced stable limit cycles in power systems. In: Proceedings of 2005 IEEE Russia Power Tech, pp 1–5

Wang X, Li X, Li F (2010) Analysis on oscillation in electro-hydraulic regulating system of steam turbine and fault diagnosis based on PSOBP. Expert Syst Appl 37(5):3887–3892

Magdy MA, Coowar F (1990) Frequency domain analysis of power system forced oscillations. In: IEE proceedings C (Generation, transmission and distribution), vol 137. IET Digital Library, pp 261–268

Rostamkolai N, Piwko R (1994) Evaluation of the impact of a large cyclic load on the LILCO power system using time simulation and frequency domain techniques. IEEE Power Syst 9(3):1–6

Hauer JHJ (1996) Extending the realism of planning models for the western north america power system. In: Proceedings of Symposium of Specialists in Electric Operational and Expansion Planning

Zhou N, Dagle J (2015) Initial results in using a self-coherence method for detecting sustained oscillations. IEEE Trans Power Syst 30(1):522–530

Kimt K, Schattlertt H, Venkatasubramanianttt V et al (1997) Methods for calculating oscillations in large power systems. IEEE Power Syst 12(4):1639–1648

Sarmadi SAN, Venkatasubramanian V, Salazar A (2016) Analysis of November 29, 2005 western American oscillation event. IEEE Trans Power Syst 31(6):5210–5211

Venkatasubramanian MV, Carroll JR (2008) Oscillation monitoring system. In presentation at NASPI meeting, Charlotte, NC

Silverstein A (2015) Diagnosing equipment health and misoperations with PMU data, North American synchrophasor initiative (NASPI), NASPI technical report [online]. https://www.naspi.org/sites/default/files/reference_documents/14.pdf?fileID=1530

Wan YH (2013) Synchronized phasor data for analyzing wind power plant dynamic behavior and model validation. Contract 303:275–3000

Sarmadi SAN, Venkatasubramanian V (2015) Inter-area resonance in power systems from forced oscillations. IEEE Trans Power Syst 31(1):378–386

Maslennikov S (2016) Locating the source of sustained oscillations. In: Presentation slide, WECC, JSIS meeting, Salt Lake City

Zhou N (June 2013) Spectral analysis of power grid PMU data. In: DOE/OE transmission reliability program, Washington, DC

Cano EB (March 2014) NYISO case studies of system events analysis using PMU data. In: Proceedings of NASPI work group meeting, Knoxville, TN

Donahoo A (2016) Oscillation detection monitor. In: Proceedings of WECC, JSIS meeting, Salt Lake City, USA

Kay SM (1998) Fundamentals of Statistical signal processing. Prentice Hall PTR, Englewooed Cliffs

Zhou N (2013) A coherence method for detecting and analyzing oscillations. In: Proceedings of IEEE Power Energy Society General Meeting, pp 1–5

Ghorbaniparvar M, Zhou N (2015) Bootstrap-based hypothesis test for detecting sustained oscillations. In: Proceedings of Power & Energy Society General Meeting, 2015, IEEE. pp 1–5

Ghorbaniparvar M, Zhou N, Li X (2016) Coherence function estimation with a derivative constraint for power grid oscillation detection. In: Proceedings of 2016 IEEE Global Conference on Signal and Information Processing (GlobalSIP), pp 791–795

Sarmadi SAN, Venkatasubramanian V (2014) Electromechanical mode estimation using recursive adaptive stochastic subspace identification. IEEE Trans Power Syst 29(1):349–358

Liu J, Yao W, Wen J et al (2014) Active power oscillation property classification of electric power systems based on SVM. J Appl Math. doi: 10.1155/2014/218647

Xie R, Trudnowski D (2015) Distinguishing features of natural and forced oscillations. In: Proceedings of Power & Energy Society General Meeting, 2015, pp 1–5

Chow J (1991) Power system toolbox version 2.0: dynamic tutorial and functions. Cherry Tree Scientific Software, RR, 5

Wang X, Turitsyn K (2016) Data-driven diagnostics of mechanism and source of sustained oscillations. IEEE Trans Power Syst 31(5):4036–4046

Liu G, Venkatasubramanian V (2008) Oscillation monitoring from ambient PMU measurements by frequency domain decomposition. In: Proceedings of the IEEE international symposium on circuits and systems, pp 2821–2824

Ma J, Zhang P, Fu HJ et al (2010) Application of phasor measurement unit on locating disturbance source for low-frequency oscillation. IEEE Trans Smart Grid 1(3):340–346

Chen L, Min Y, Hu W (2013) An energy-based method for location of power system oscillation source. IEEE Trans Power Syst 28(2):828–836

Ying L, Chen S, Feng L (2012) An energy-based methodology for locating the source of forced oscillations in power systems. In: Proceedings of 2012 IEEE international conference on power syst. technol. (POWERCON), pp 1–6

Gao Y, Liu D, Huang G et al (2012) Locating method of disturbance source of forced power oscillation based on prony anyasis. In: Proceedings of China international conference on electricity distribution, pp 1–4

Li Z, Fang Y, Li W et al (2012) Forced power oscillation analysis based on EEAC theory. In: 2012 Asia-Pacific Symposium on Electromagnetic compatibility (APEMC). IEEE, pp 833–836

Yu Y, Min Y, Chen L et al (2011) The disturbance source identification of forced power oscillation caused by continuous cyclical load. In: Proceedings of DRPT 2011–2011 4th international conference on electr. util. deregul. restruct. power technol., pp 308–313

Hu W, Lin T, Gao Y et al (2011) Disturbance source location of forced power oscillation in regional power grid. In: Proceedings of the 2011 IEEE power eng. autom. conf. (PEAM 2011), pp 363–366

Zhou N, Huang Z, Dosiek L et al (2009) Electromechanical mode shape estimation based on transfer function identification using PMU measurements. In: Proceedings of Power & Energy Society General Meeting, pp 1–7

Kundur P (1994) Power system stability and control. McGraw-Hill, New York

Vanfretti L, Bengtsson S, Aarstrand VH et al (2012) Applications of spectral analysis techniques for estimating the Nordic grid’s low frequency electromechanical oscillations. IFAC Proc Vol 45(16): 1001–1006

Vanfretti L, Bengtsson S, Peric VS et al (2013) Spectral estimation of low-frequency oscillations in the Nordic grid using ambient synchrophasor data under the presence of forced oscillations. In: Proceedings of 2013 IEEE grenoble conf. PowerTech, POWERTECH, pp 1–6

Vanfretti L, Bengtsson S, Peric VS et al (2012) Effects of forced oscillations in power system damping estimation. In: Proceedings of the IEEE int. work. appl. meas. power syst. (AMPS 2012), pp 59–64

Jabbar M, Ghorbaniparvar H (2014) Determination of volatile components in black cardamom with gas chromatography-mass spectrometry and chemometric resolution. Int J Eng Res Technol 3(11)

Jabbar M, Ghorbaniparvar H (2014) Use of GC-MS combined with resolution methods to characterize and to compare the essential oil components of green and bleached cardamom. IJRCE 5

Sidorov DN, Grishin YA, Šmádl V (2010) On-line detection of inter-area oscillations using forgetting approach for power systems monitoring. In: Proceedings of 2010 The 2nd International Conference on Computer and Automation Engineering, Singapore, pp 292–295