[1] Zhou X X, Chen S Y, Lu Z X, Huang Y H, Ma S C[J]. Proceedings of the CSEE, 38, 1893(2018).
[2] Yuan X M, Cheng S J, Hu J B[J]. Proceedings of the CSEE, 36, 5145(2016).
[3] Hu J B, Yuan X M, Cheng S J[J]. Proceedings of the CSEE, 39, 5457(2019).
[4] Biaabjerg F, Ma K[J]. IEEE J. Emerging Sel. Top. Power Electron., 1, 139(2013).
[5] Biaabjerg F, Teodorescu R, Liserre M, Timbus A V[J]. IEEE Trans. Ind. Electron., 53, 1398(2006).
[6] National Grid ESO LFDD 09/08/2019 Incident Report[J].
[7] Kundur P, Balu N J, Lauby M G[J]. Power System Stability and Control Vol. 1, 827(1994).
[8] Anderson P M, Fouad A A[J]. Power System Control and Stability Vol. 2, 13(2002).
[9] Fu S T, Ni Y Y, Xue Y S[J]. Direct Method Stability Analysis Vol. 1, 25(1999).
[10] Liu S, Chen C[J]. Energy Function Analysis of Power Aystem Transient Atability: Network Structure Maintenance Model Vol. 1, 75(2014).
[11] Chiang H D[J]. Direct Methods for Stability Analysis of Electric Power Systems Vol. 1, 60(2010).
[12] Kakimoto N, Ohsawa Y, Hayashi M[J]. Trans. IEE of Japan, 98, 62(1978).
[13] Llamas A, Lopez J, Mili L, Phadke A, Thorp J[J]. IEEE Trans. Power Syst, 10, 210(1995).
[14] Xue Y, Cutsem T V, Ribbens-Pavella V[J]. IEEE Trans. Power Syst., 3, 400(1988).
[15] Kalcon G O, Adam G P, Anaya-Lara O, Lo S, Uhlen K[J]. IEEE Trans. Power Syst., 27, 1818(2012).
[16] Harnefors L, Bongiorno M, Lundberg S[J]. IEEE Trans. Ind. Electron., 54, 3323(2007).
[17] Sun J[J]. IEEE Trans. Power Electron., 26, 3075(2011).
[19] Huang Y, Yuan X, Hu J, Zhou P[J]. IEEE J. Emerging Sel. Top. Power Electron., 3, 1193(2015).
[20] Yuan H, Yuan X, Hu J[J]. IEEE Trans. Power Syst., 32, 3981(2017).
[21] Yang Z, Mei C, Chen S, Zhan M[J]. IEEE J. Emerging Sel. Top. Power Electron., (in press)(2020).
[22] Kabalan M, Singh P, Niebur D[J]. IEEE Trans. Smart Grid, 8, 2287(2016).
[23] Wu H, Wang X[J]. IEEE Trans. Ind. Electron., 66, 6473(2018).
[24] Huang L, Xin H, Wang Z, Zhang L, Wu K, Hu J[J]. IEEE Trans. Smart Grid, 10, 578(2017).
[26] Huang M, Peng Y, Chi K T, Liu Y, Sun J, Zha X[J]. IEEE Trans. Power Electron., 32, 8868(2017).
[27] Zhang C, Cai X, Li Z, Rygg A, Molinas M[J]. IET Power Electron., 10, 894(2017).
[28] Sun J, Wang G, Du X, Wang H[J]. IEEE Trans. Power Electron., 34, 3025(2018).
[29] Ying J, Yuan X X, Hu J B[J]. IEEE Trans. Energy Convers., 32, 1502(2017).
[30] Vittal E, O’Malley M, Keane A[J]. IEEE Trans. Power Syst., 25, 433(2010).
[31] Gautam D, Vittal V, Harbour T[J]. IEEE Trans. Power Syst., 24, 1426(2009).
[32] Hu Q, Fu L, Ma F, Ji F[J]. IEEE Trans. Power Syst., 34, 3220(2019).
[33] Li M J, Yu Z, Xu T, He J B, Wang C, Xie X X, Liu C[J]. Proceedings of the CSEE, 41, 1035(2017).
[34] Menck P J, Heitzig J, Kurths J, Schellnhuber H J[J]. Nat.Commun., 5, 3969(2014).
[35] Schultz P, Heitzig J, Kurths J[J]. New J.Phys., 16, 125001(2014).
[36] Rohden M, Sorge A, Timme M, Witthaut D[J]. Phys. Rev. Lett., 109, 064101(2012).
[37] Schafer B, Witthaut D, Timme M, Latora V[J]. Nat. Commun., 9, 1975(2018).
[38] Motter A E, Myers S A, Anghel M, Nishikawa T[J]. Nat. Phys., 9, 191(2013).
[39] Yang Y, Nishikawa T, Motter A E[J]. Science, 358, 3184(2017).
[40] Dorfler F, Chertkov M, Bullo F[J]. PNAS, 110, 2005(2013).
[41] Grob D, Arghir C, Dorfler F[J]. Automatica, 90, 248(2018).
[42] Carareto R, Baptista M S, Grebogi C[J]. Commun. Nonlinear Sci. Numer. Simul., 18, 1035(2013).
[43] Ma J, Sun Y, Yuan X, Kurths J, Zhan M[J]. PLoS ONE, 11, e0165943(2016).
[44] Sun Y, Kurths J, and Zhan M[J]. CHAOS, 27, 083116(2017).
[45] Y Sun, J Ma, J Kurths, M Zhan[J]. Proc. R. Soc. London, Ser. A, 474, 20170733(2018).
[46] M He, W He, J Hu, X Yuan, M Zhan[J]. Nonlinear Dynamics, 95, 1965(2019).
[47] Q Yue, J Yu, Zhan M[J]. IET RPG 2019 International Conference on Renewable Power Generation Shanghai, 294(2019).
[48] Qiu Q, Ma R, Kurths J, Zhan M[J]. Chaos, 30, 013110(2020).
[50] [J].
[51] Strogatz S H[J]. Nonlinear Dynamics and Chaos: with Applications to Physics, Biology, Chemistry, and Engineering Vol. 2, 241(2018).
[52] Kuehn C[J]. Multiple Time Scale Dynamics Vol. 1, 53(2015).