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清华大学电机系

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xingzhou dong

professor, doctoral supervisor, department of electrical engineering, tsinghua university

power system fault analysis, relay protection, fault traveling wave theory, traveling wave protection, traveling wave ranging, wavelet transform application, no channel protection, system protection for grid security, intelligent substation integrated protection, etc

room 207, zone 3, west main building, tsinghua university, haidian district, beijing

xzdong@tsinghua.edu.cn

010-62782894

  • personal introduction
  • teaching situation
  • research project
  • publications
  • social service

1.1 brief introduction

prof. xinzhou dong is the head of the power system protection team, director of the power system research institute at the department of electric engineering of tsinghua university. he is the iet fellow, ieee fellow, aaia fellow, csee fellow, director of the green energy and power safety beijing international science and technology cooperation center.

he graduated from the department of electrical engineering of xi'an jiaotong university in 1983 with a bachelor's degree, graduated from xi'an jiaotong university with a master degree in 1991 and a phd degree in 1996. he completed a post-doctor study at the department of electrical engineering of tsinghua university in 1999. since 1999, he was appointed as an associate professor and promoted to a full professor in 2004 by tsinghua university.

he is a member of cigre b5, a member of the cigre china national technical committee, the chairman of the cigre-b5-55 traveling wave protection working group, a member of the cired national technical committee, the chairman of the ieee pes china power system relaying and control satellite technical committee, the chairman of the iec tc95 ahg4 working group, a council member of the china electrotechnical society, the vice chairman of the protection and control techinical committee of the china electrotechnical society, the vice chairman of the relaying committee of the china society for hydropower engineering, a member of the protective relaying expert group of state grid corporation of china, a member of national standardization administration committee on measurement relay and protection equipment of china, a member of national standardization administration committee on short circuit current calculation of china, a member of the national short circuit current calculation standardization committee, a member of the shaanxi provincial hundred talents program, a distinguished professor at shaanxi university of technology, a visiting professor at the university of strathclyde in the uk, and a part-time professor at national taipei university of technology. he is also an editorial board member of pca world, csee journal of power and energy systems, journal of modern power systems and clean energy, journal of electric power automation equipment, journal of power system automation, journal of electric power science and technology, journal of electric power engineering technology, journal of power system technology, journal of shaanxi university of technology, and deputy editor-in-chief of journal of protection and control of modern power systems.

professor dong has successively presided over 6 major projects of national natural science foundation of china, including the key project, general project, and international cooperation project. he has also led one international cooperation project with the ministry of science and technology and one large-scale international cooperation project (tsinghua university - alstom joint research center). he participated in one 973 project of the ministry of science and technology, one project of the ministry of education, one international cooperation project of the ministry of science and technology with denmark, china-british cooperation project of national natural science foundation of china, and system protection technology for preventing cascading faults of ac-dc hybrid power grid by sgcc.

his main academic contributions are: the first person led the application of wavelet transform in power system fault analysis and fault traveling wave research, the invention of modern traveling wave fault location technology, modern traveling wave protection technology, traveling wave fault line selection technology, and the development of the world first transient traveling wave protection testing instrument; proposed and implemented a station domain integrated protection technology for power system security; proposed and implemented power line non communication protection technology and high resistance grounding fault detection technology in collaboration with alstom company.

based on the above research, 450 papers have been published, 5 academic books have been written, 7 academic works have been translated, and 120 invention patents have been authorized. he has won the 2020 national innovation prize, 2017 china electric power science and technology outstanding contribution award, 2016 cigre outstanding member award, two second prizes of national science and technology invention award, one second prize of the national excellent teaching material award, 10 first and second prizes of provincial and ministerial awards, three gold prizes of the geneva international invention exhibition, and two kepco leading edge prizes of the korea international invention expo. he was awarded mpce outstanding editor in 2016, jpes outstanding contribution to journal award in 2018, and elsevier highly cited china scholar from 2017 to 2019. he hosted two large-scale international conferences ieee apap2011 and apap2015, and the china-korea relay protection forum 16 times. served as the advisory chairman for the international conference on electronic technology (icet) for four consecutive years, and was a committee member for the 7th, 10th, 14th, and 15th international conference on developments in power system protection (dpsp), as well as a member of the advisory committee for the 6th international conference on power system technology (powercon).

1.2 work experience

1983.08 ~ 1988.07 asisstant professor, electrical technology division, department of electrical and electronic engineering, shaanxi university of technology;

1991.08 ~ 1994.01 lecturer and deputy director of electrical technology division, department of electrical and electronic engineering, shaanxi university of technology;

1997.01 ~ 1999.01 post-doctor, tianjin university, promoted to associate professor in october 1998;

1999.02~2004.11 associate professor, institute of electric power system, department of electrical engineering, tsinghua university;

2004.12-present professor, institute of electric power system, department of electrical engineering, tsinghua university;

sep. 2021.09-present director of electric power system research institute, department of electrical engineering, tsinghua university;

2003.09-2016,08 director of tsinghua university - alstom power transmission and distribution research center;

2014.03-present director of beijing international science and technology cooperation center for green energy and power safety.

1.3. honours and awards

2020 national innovation excellence award

2017 outstanding contribution award of china electric power science and technology

2016 cigre outstanding member award

2007 national science and technology invention award, 2nd prize, power line online fault location technology based on travelling waves

2017 national science and technology invention award, 2nd prize, key technologies and devices for traveling wave protection of power lines

2021 national excellent teaching material award, 2nd prize, principles of relaying protection of power system (fifth edition)

2004 beijing science and technology award, 2nd prize, transient traveling wave analysis and fault location theory research of transmission lines based on wavelet transform

2007 shandong province science and technology progress award, 2nd prize, the fault location technology and application system based on travelling waves for transmission line

2010 beijing science and technology award, 2nd prize, new technology of relay protection for distribution lines

2014 china electric power technology invention award, 1st prize, transmission and distribution line protection technology based on transient fault traveling wave

2015 shanxi science and technology award, 1st prize, research and application of traveling wave line selection technology

2016 beijing science and technology award, 1st prize, key technology and device development and application of power line traveling wave protection

2016 shanxi science and technology award, 1st prize, traveling wave protection technology and its application for 750 kv transmission line

2021 beijing science and technology award, 1st prize, research and application of relay protection technology for securing new energy power system

2021 fujian province science and technology award, 1st prize, relay protection technology for defense of power system secondary disasters

2022 china electric power science and technology award, 1st prize, research and application of relay protection technology to safeguard the safety of new energy power system

2013 science chinese person of the year award, scienctific chinese magazine

2014 gold medal of the 42nd international exhibition of inventions, geneva, transient traveling wave protection tester

2015 gold medal of the 43rd international exhibition of inventions, geneva, transmission line traveling wave direction protection

2015 korea international invention fair kepco leading edge prize, transient traveling wave protection tester

2015 korea international invention fair kepco leading edge prize, single-phase grounded traveling wave line selection device for distribution network

2016 excellent editorial board member, journal of modern power systems and clean energy (mpce)

2018 journal award for outstanding contribution, csee journal of power and energy systems (jpes)

2017-2019 elsevier high citation china scholar

2021 gold medal of the international exhibition of inventions, geneva, feeder protection control device

2.1 undergraduate courses:

power system protective relaying, 48 class hours, third year undergraduate, spring semester

computer protection and control, 32 class hours, forth year undergraduate, autumn semester

protective relaying experiment, 16 class hours, third year undergraduate, spring semester

2.2 postgraduate courses:

protective relaying, 32 class hours, postgradute spring semester

landmark project

2016-2021,national key research and development project of ministry of science and technology, "operation control and protection of large-scale ac-dc hybrid power grid" (project no.:2016yfb6900600)

2012-2016,the major international cooperative research project of the national natural science foundation of china, "system protection based on local information"(project no.:51110051)

2010-2013, key project of national natural science foundation of china, "fault traveling wave theory and its application in power system fault detection"(project no.:50937003)

2005-2007,science and technology cooperation project between china and denmark, "transient protection of distributed power generation system based on wavelet transform", ministry of science and technology (approval number: am14: 23nnp37)

2020-2022,national natural science foundation of china, "research on the resilience of future urban energy systems under extreme conditions"(project no.:52061635105)

2001-2003,two bases of international exchange and cooperation project of national natural science foundation of china, "research on non-channel protection based on high-frequency transient"(funding no.: 50110686)

2007-2009,project 973, ministry of science and technology, "research on improving transmission capacity of ultra-high voltage ac transmission lines", participate, (project no.: 2004cb217906)

2007-2009,ministry of education project, "ministry of education innovation team", participate,(team no.: irt0634)

2003-2018,tsinghua university-alstom large-scale international cooperation project, "tsinghua university alstom power grid research center"(project no.: 20033000054)

2016-2017,tsinghua university-siemens international cooperation project, "research on fault location method of transmission lines and control technology based on traveling wave"(project no.: 20163000188)

2021-2023,science and technology project of the headquarters of state grid corporation, "research on basic theory and technology of system protection for preventing ac-dc hybrid power grid chain failures"(project no.: sgfjdk00dwjs2100433)

4.1 books

1)xinzhou dong, fault traveling wave theory and its applications, science press, may 2022;

2)xinzhou dong, fault travel wave and its application, spinger, june 2022;

3)xinzhou dong, ac-dc hybrid large grid system protection, china electric power press, oct 2022;

4)xinzhou dong, ac/dc hybrid large scale power grid system protection, spinger, oct 2022;

5)xinzhou dong, modern power system protection, tsinghua university press, mar 2023;

6)jian liu, xinzhou dong, xingying chen, xiangqian tong, xiaoqing zhang, shiming xu, fault location and service restoration for electrical distribution system; singapore: wiley/china electric power press, 2016, singapore/beijing;

7)jian liu, xinzhou dong et al., distribution network fault location and power supply restoration, china electric power press, 2012, beijing, china;

8)jiali he, yongli li, xinzhou dong et al., principle of relay protection in power system, china electric power press, 2011, beijing, china;

9)bin wang, xinzhou dong, high efficiency renewable distributed power generation system, china machine press, 2010, beijing, china;

10)weisheng wang, xinzhou dong, electric power system calculation, china electric power press, 2009, beijing, china;

11)power system protection, by p.m.anderson, translated by song yonghua; xinzhou dong; china electric power press, 2009;

12)solar electric power generation-photovoltaic energy systems, by stefan krauter, translated by bin wang; xinzhou dong; china machine press, 2008.

4.2 international journal papers

1) dong, xinzhou; yang, zhonghao; bo, zhiqian, fast extraction of power frequency component using wavelet transform, dianli xitong zidonghua/automation of electric power systems, 26(24)(2002), 75-78;

2)su, qianli; dong, xinzhou, fault line selection based on current traveling waves and wavelet transform for non-solid-grounded system, dianli xitong zidonghua/automation of electric power systems, 26(2002), 79-82, 103;

3)youyi li; xinzhou dong; yuanzhang sun, identification of transient and permanent faults, journal of tsinghua university(science and technology), 8(6)(2003), 672-675;

4)z. q. bo; x. z. dong; b. r. j. caunce, accelerated protection of distribution systems with tapped off loads, iee proceedings-generation, transmission and distribution, 151(4)(2004), 461-468;

5)xinzhou dong; yaozhong ge; jiali he, surge impedance relay, ieee transactions on power delivery, 20(2)(2005), 1247-1256;

6)dong, xinzhou and yuan, dingding and lu, qiang and bo, zhiqian, novel directional comparison protection for distribution lines, science in china series e: technological sciences, 23(5)(2008), 353-361;

7)bin wang; xinzhou dong; zhiqian bo; anthony perks, rtds environment development of ultra-high-voltage power system and relay protection test, ieee transactions on power delivery, 23(2)(2008), 618-623;

8)zhiqian bo; shenxing shi; xinzhou dong, integrated protection scheme for power line, transactions of tianjin university, 14(2)(2008), 79-84;

9)dong, xinzhou; shi, shenxing; cui, tao; lu, qiang, optimizing solution of fault location using single terminal quantities, science in china series e: technological sciences, 51(6)(2008), 761-772;

10)xinzhou dong; shenxing shi, identifying single-phase-to-ground fault feeder in neutral noneffectively grounded distribution system using wavelet transform, ieee transactions on power delivery, 23(4)(2008), 1829-1837;

11)xinzhou dong; wei kong; tao cui, fault classification and faulted-phase selection based on the initial current traveling wave, ieee transactions on power delivery, 24(2)(2009), 552-559;

12)bin wang; xinzhou dong; zhiqian bo; a. klimek, residual compensation for ground impedance relay with applications in uhv transmission lines, ieee transactions on power delivery, 24(3)(2009), 1072-1078;

13)bin wang; xinzhou dong; zhiqian bo; andrew klimek, negative-sequence pilot protection with applications in open-phase transmission lines, ieee transactions on power delivery, 25(3)(2010), 1306-1313;

14)tao cui; xinzhou dong; zhiqian bo; andrzej juszczyk, hilbert-transform-based transient/intermittent earth fault detection in noneffectively grounded distribution systems, ieee transactions on power delivery, 26(1)(2011), 143-151;

15)dong x z; shi s x; wang b; bak d j; cao r b; ren l; lan l; he s e, accident of large-scale wind turbines disconnecting from power grid and its protection, automation of electric power systems, 36(8)(2012), 105-109;

16)shiyong wang, xinzhou dong, shenxing shi, liu cui, study on current travelling wave transmission characteristics in secondary control cable connected with ct, physics procedia, 33(2012), 663-671;

17)bąk, d; dong, x; rebizant, w., new method of ct saturation detection present problems of power system control, 2(2012), 65-72;

18)bin wang; xinzhou dong; lan lan; fei xu, novel location algorithm for single-line-to-ground faults in transmission line with distributed parameters, iet generation, transmission & distribution, 7(6)(2013), 560-566;

19)xinzhou dong; jun wang; shenxing shi; bin wang; bak dominik; miles redefern, traveling wave based single-phase-to-ground protection method for power distribution system, csee journal of power and energy systems, 1(2)(2015), 75-82;

20)shenxing shi; zhonghong hu; zhao ma; xinzhou dong, travelling waves-based identification of sub-health condition of feeders in power distribution system , iet generation, transmission & distribution, 12(5)(2018), 1067-1073;

21)xu, fei; dong, xinzhou; wang, bin; shi, shenxing, self-adapted single-ended travelling wave fault location algorithm considering transfer characteristics of the secondary circuit, iet generation, transmission & distribution, 9(14)(2015), 1913-1921;

22)yuwei shang; shenxing shi; xinzhou dong, islanding detection based on asymmetric tripping of feeder circuit breaker in ungrounded power distribution system, journal of modern power systems and clean energy, 3(4)(2015), 526-532;

23)jiang, b., dong, x., shi, s., application of approximate entropy to cross-country fault detection in distribution networks, power system protection and control, 43 (17)(2015), 15-21;

24)dong, x., luo, s., shi, s., wang, b., wang, s., cui, l., wang, j., ren, l., jiang, b., xu, f., wu, j., liu, f., su, x., zhang, y., guo, x., lan, j., qian, g., pctdr-based directional comparison pilot protection technology and its application in 750 kv transmission lines, electric power automation equipment, 35 (9) (2015), 1-5;

25)xinzhou dong; shuxin luo; shenxing shi; bin wang; shiyong wang; li ren; fei xu, implementation and application of practical traveling-wave-based directional protection in uhv transmission lines, ieee transactions on power delivery, 31(1)(2016), 294-302;

26)shuxin luo ; xinzhou dong ; shenxing shi ; bin wang, a directional protection scheme for hvdc transmission lines based on reactive energy, ieee transactions on power delivery (2016 ieee power and energy society general meeting (pesgm), boston, ma, usa), 31(2)(2016), 559-567;

27)xinzhou dong; delin wang; manyong zhao; bin wang; shenxing shi; alexander apostolov, smart power substation development in china, csee journal of power and energy systems, 2(4)(2016), 1-5;

28)lei, a., dong, x., shi, s., a method to identify the second reverse travelling wave induced by single-phase-to-ground fault in transmission line, zhongguo dianji gongcheng xuebao/proceedings of the csee, 36 (8)(2016), 2151-2158;

29)liu, j., dong, x., chen, x., tong, x., zhang, x., xu, s., fault location and service restoration for electrical distribution systems, fault location and service restoration for electrical distribution systems, 2016, 1-244;

30)dong, x., shi, s., single phase to ground fault processing, fault location and service restoration for electrical distribution systems, 2016, 163-203;

31)bin, wang; jiang, ni; jianzhao, geng; yuanyuan, lu; xinzhou, dong, arc flash fault detection in wind farm collection feeders based on current waveform analysis, journal of modern power systems and clean energy, 5(2)(2017), 211-219;

32)lv, chen; sheng, wanxing; liu, keyan; dong, xinzhou, research on multi-scale modeling of grid-connected distributed photovoltaic power generation, energy and power engineering, 9(4)(2017), 127-140;

33)lanxi tang; xinzhou dong; shuxin luo; shenxing shi; bin wang, a new differential protection of transmission line based on equivalent travelling wave, ieee transactions on power delivery, 32(3)(2017), 1359-1369;

34)sohrab mirsaeidi; xinzhou dong; shenxing shi; dimitrios tzelepis, challenges, advances and future directions in protection of hybrid ac/dc microgrids, iet renewable power generation, 11(12)(2017), 1495-1502;

35)mirsaeidi, sohrab and dong, xinzhou and shi, shenxing and wang, bin, ac and dc microgrids: a review on protection issues and approaches, journal of electrical engineering & technology, 12(6)(2017), 2089-2098;

36)tzelepis, d; dysko, a; fusiek, g; niewczas, p; mirsaeidi, s; booth, c; dong, x, advanced fault location in mtdc networks utilising optically-multiplexed current measurements and machine learning approach, international journal of electrical power and energy systems, 97(2018), 319-333;

37)lei, aoyu; dong, xinzhou; shi, shenxing; wang, bin; terzija, vladimir, equivalent traveling waves based current differential protection of ehv/uhv transmission lines, international journal of electrical power and energy systems, 97(2018), 282-289;

38)xuankun song; teng feng; liu han; travis m.smith; xinzhou dong; wenxuan liu; rui zhang, analysis on the fault characteristics of three-phase short-circuit for half-wavelength ac transmission lines, global energy interconnection, 1(2)(2018), 115-121;

39)bin wang; jianzhao geng; xinzhou dong, high-impedance fault detection based on nonlinear voltage-current characteristic profile identification, ieee transactions on smart grid, 9(4)(2017), 3783-3791;

40)hao, wang; mirsaeidi, sohrab; kang, xiaoning; dong, xinzhou; tzelepis, dimitrios, a novel traveling-wave-based protection scheme for lcc-hvdc systems using teager energy operator, international journal of electrical power and energy systems, 99(2018), 474-480;

41)tang, lanxi; dong, xinzhou, a travelling wave differential protection scheme for half-wavelength transmission line, international journal of electrical power and energy systems, 99(2018), 376-384;

42)mirsaeidi, sohrab; dong, xinzhou; said, dalila mat, towards hybrid ac/dc microgrids: critical analysis and classification of protection strategies, renewable and sustainable energy reviews, 90(2018), 97-103;

43)wu, yahui; dong, xinzhou; mirsaeidi, sohrab, design and simulation of a new model for air-gapped current transformers, ieej transactions on electrical and electronic engineering, 13(8)(2018), 1127-1135;

44)dimitrios tzelepis; adam dyśko; steven m. blair; anastasios oulis rousis; sohrab mirsaeidi; campbell booth; xinzhou dong, centralised busbar differential and wavelet-based line protection system for multi-terminal direct current grids, with practical iec-61869-compliant measurements, iet generation, transmission & distribution, 12(14)(2018), 3578-3586;

45)dimitrios tzelepis; grzegorz fusiek; adam dyśko; pawel niewczas; campbell booth; xinzhou dong, novel fault location in mtdc grids with non-homogeneous transmission lines utilizing distributed current sensing technology, ieee transactions on smart grid, 9(4)(2018), 5432-5443;

46)tang, lanxi; dong, xinzhou; shi, shenxing; wang, bin, analysis of the characteristics of fault-induced travelling waves in mmc-hvdc grid, the journal of engineering, 2018(15)(2018), 1349-1353;

47)tzelepis, dimitrios; dyśko, adam; booth, campbell; mirsaeidi, sohrab; dong, xinzhou, design of dc-line terminating inductors for enhancement of protective functions in mtdc grids, the journal of engineering (dpsp 2018), 2018(15)(2018), 1072-1077;

48)wang, bin; yang, lin; dong, xinzhou, fault location method for high-voltage direct current transmission line using incident current travelling waves, the journal of engineering, 2018(15)(2018), 1165 – 1168;

49)lei, aoyu; dong, xinzhou; shi, shenxing; wang, bin, impedance-based pilot protection for ultra-high-voltage/extra-high-voltage transmission lines, the journal of engineering, 2018(15)(2018), 904-907;

50)shi, shenxing; lei, aoyu; he, xin; mirsaeidi, sohrab; dong, xinzhou, travelling waves-based fault location scheme for feeders in power distribution network, the journal of engineering, 2018(15)(2018), 1326-1329;

51)aoyu lei; xinzhou dong; vladimir terzija, an ultra-high-speed directional relay based on correlation of incremental quantities, ieee transactions on power delivery, 33(6)(2018), 2726-2735;

52)dong, x., lei, a., tang, l.comparative study of traveling wave differential protection and current differential protection for power lines, power system protection and control, 46 (1)(2018), 1-8;

53)tang, l., dong, x., wang, b., shi, s., study on the current differential protection for half-wave-length ac transmission lines, ieee power and energy society general meeting, 2018-january, 1-5;

54) wang, b., wei, x., zhang, g., wen, b., feng, y., dong, x., fault arc modeling and analysis in circuit breaker in hvdc converter station filter branch, proceedings of the csee, 38 (5)(2018), 1496-1503;

55) shi, s., hu, z., ma, z., dong, x., travelling waves-based identification of subhealth condition of feeders in power distribution system, iet generation, transmission and distribution, 12 (5)(2018), 1067-1073;

56) wang, b., wei, x., zhang, g., feng, y., wen, b., dong, x., high-frequency arc fault detection in circuit breaker in substation ac filter branch, proceedings of the csee, 38 (6)(2018), 1837-1845;

57) song, x., feng, t., han, l., smith, t.m., dong, x., liu, w., zhang, r., analysis on the fault characteristics of three-phase short-circuit for half-wavelength ac transmission lines, global energy interconnection, 1 (2)(2018), 115-121;

58) tzelepis, d., dyśko, a., fusiek, g., niewczas, p., mirsaeidi, s., booth, c., dong, x., advanced fault location in mtdc networks utilising optically-multiplexed current measurements and machine learning approach, international journal of electrical power and energy systems, 97(2018), 319-333;

59) lei, a., dong, x., shi, s., wang, b., terzija, v., equivalent traveling waves based current differential protection of ehv/uhv transmission lines, international journal of electrical power and energy systems, 97(2018), 282-289;

60) yang, l., wang, b., dong, x., overview of fault location methods in high voltage direct current transmission lines, automation of electric power systems, 42 (8)(2018),185-191;

61) feng, t., dong, x., method for dealing with sag in electromagnetic transient simulation of overhead line, proceedings of the csee, 38 (9)(2018), 2634-2640;

62) dong, x., tang, l., shi, s., qiu, y., kong, m., pang, h., configuration scheme of transmission line protection for flexible hvdc grid, power system technology, 42 (6)(2018), 1752-1759;

63) guan, e., dong, x., study on the she modulation of a 5 mw offshore wind three-level converter prototype, proceedings of the 13th ieee conference on industrial electronics and applications, iciea 2018, 571-576;

64) wang, b., geng, j., dong, x., high-impedance fault detection based on nonlinear voltage-current characteristic profile identification, ieee transactions on smart grid, 9 (4)(2018),3783-3791;

65) mirsaeidi, s., dong, x., said, d.m., towards hybrid ac/dc microgrids: critical analysis and classification of protection strategies, renewable and sustainable energy reviews, 90, 2018, 97-103;

66) tang, l., dong, x., a travelling wave differential protection scheme for half-wavelength transmission line, international journal of electrical power and energy systems, 99,2018, 376-384;

67) hao, w., mirsaeidi, s., kang, x., dong, x., tzelepis, d., a novel traveling-wave-based protection scheme for lcc-hvdc systems using teager energy operator, international journal of electrical power and energy systems, 99,2018, 474-480;

68) wu, y., dong, x., mirsaeidi, s., design and simulation of a new model for air-gapped current transformers, ieej transactions on electrical and electronic engineering, 13 (8)(2018),1127-1135;

69)tzelepis, d., dysko, a., blair, s.m., rousis, a.o., mirsaeidi, s., booth, c., dong, x., centralised busbar differential and waveletbased line protection system for multiterminal direct current grids, with practical iec-61869-compliant measurements, iet generation, transmission and distribution, 12 (14)(2018), 3578-3586;

70)feng, t., dong, x., performance test method of two-terminal traveling wave fault locator,electric power automation equipment, 38 (9)(2018),114-120 and 128;

71) tang, l., dong, x., shi, s., kong, m., qiu, y., principle and implementation of ultra-high-speed travelling wave based protection for transmission line of flexible hvdc grid, power system technology, 42 (10)(2018), 3176-3186;

72) dong, x., lei, a., tang, l., wang, b., shi, s., analysis of traveling wave characteristics and challenges and prospects of traveling wave differential protection technology, automation of electric power systems, 42(19)(2018),184-191;

73)sohrab mirsaeidi; xinzhou dong; dimitrios tzelepis; dalila mat said; adam dysko; campbell booth, a predictive control strategy for mitigation of commutation failure in lcc-based hvdc systems, ieee transactions on power electronics, 34(1)(2019), 160-172;

74) tang, lanxi; dong, xinzhou; shi, shenxing; qiu, yufeng, a high-speed protection scheme for the dc transmission line of a mmc-hvdc grid, electric power systems research, 168 (2019), 81-91;

75) qi jia; xinzhou dong; sohrab mirsaeidi, a traveling-wave-based line protection strategy against single-line-to-ground faults in active distribution networks, international journal of electrical power and energy systems, 107 (2019), 403-411;

76)shenxing shi; beier zhu; aoyu lei; xinzhou dong, fault location for radial distribution network via topology and reclosure-generating traveling waves, ieee transactions on smart grid, 10(6)(2019), 6404-6413;

77) sohrab mirsaeidi; xinzhou dong; dalila mat said,a fault current limiting approach for commutation failure prevention in lcc-hvdc transmission systems, ieee transactions on power delivery, 34(5)(2019), 2018-2027;

78) sohrab mirsaeidi; xinzhou dong, an integrated control and protection scheme to inhibit blackouts caused by cascading fault in large-scale hybrid ac/dc power grids, ieee transactions on power electronics, 34(8)(2019), 7278-7291;

79) chen lv; wanxing sheng,; ke-yan liu; xinzhou dong; pan deng, multi-status modelling and event simulation in smart distribution network based on finite state machine, iet generation transmission & distribution, 13(13)(2019), 2846-2855;

80) shenxing shi; beier zhu; sohrab mirsaeidi; xinzhou dong, fault classification for transmission lines based on group sparse representation, ieee transactions on smart grid, 10(14)(2019), 4673-4682;

81) beier zhu; haozong wang; shenxing shi; xinzhou dong, fault location in ac transmission lines with back-to-back mmc-hvdc using convnets, journal of engineering-joe, (16)(2019), 2430-2431;

82)aoyu lei; xinzhou dong, decomposition of post-fault transients on power lines and analytical solution of its stationary component, journal of electrical engineering & technology, 14(1)(2019), 7-46;

83)tang, l., dong, x. an approximate method for the calculation of transmission line fault current in mmc-hvdc grid, proceedings of the csee. 39 (2)(2019), 490-498;

84) lei, a., dong, x., decomposition of post-fault transients on power lines and analytical solution of its stationary component, journal of electrical engineering and technology, 14 (1)(2019),37-46;

85) tang, l., dong, x., shi, s., qiu, y., a high-speed protection scheme for the dc transmission line of a mmc-hvdc grid, electric power systems research, 168,2019, 81-91;

86) jia, q., dong, x., shi, s., practical traveling waves based single-phase-to-ground protection for radial connected distribution lines, proceedings of the csee, 39 (6)(2019),1543-1550;

87) jia, q., dong, x., mirsaeidi, s., a traveling-wave-based line protection strategy against single-line-to-ground faults in active distribution networks, international journal of electrical power and energy systems, 107, 2019, 403-411;

88) dong, x., tang, y., bu, g., shen, c., song, g., wang, z., gan, d., hou, j., wang, b., zhao, b., shi, s., confronting problem and challenge of large scale ac-dc hybrid power grid operation, proceedings of the csee, 39 (11)(2019),3107-3118;

89) zhang, c., song, g., dong, x., yang, l., principle of high speed protection for dc transmission line using wave front generalized logistic function fitting, proceedings of the csee, 39 (11)(2019), 3168-3175;

90) guan, e., dong, x., wang, h., study of combined fault current limiting equipment and operation strategy for dc grid, proceedings of the csee, 39 (11)(2019), 3222-3230;

91) cai, j., dong, x., overview on research of fault clearing and recovery strategy for hvdc transmission lines, automation of electric power systems, 43 (11)(2019),181-190;

92)lei, a., dong, x., wide-frequency and short-time window based traveling wave differential protection method for ehv/uhv transmission lines, proceedings of the csee, 39 (23)(2019), 6826-6835;

93)lei, aoyu; dong, xinzhou., decomposition of post-fault transients on power lines and analytical solution of its stationary component, journal of electrical engineering & technology, 14(1)(2019),37-46;

94)zhu, beier; wang, haozong; shi, shenxing; dong, xinzhou., fault location in ac transmission lines with back-to-back mmc-hvdc using convnets, journal of engineering-joe, 16(2019);

95)jia, qi; dong, xinzhou; mirsaeidi, sohrab., a traveling-wave-based line protection strategy against single-line-to-ground faults in active distribution networks, international journal of electrical power & energy systems, 107(2019),403-411;

96)shi, shenxing; zhu, beier; mirsaeidi, sohrab; dong, xinzhou., fault classification for transmission lines based on group sparse representation, ieee transactions on smart grid, 10(4)(2019),4673-4682;

97)mirsaeidi, sohrab; dong, xinzhou, an integrated control and protection scheme to inhibit blackouts caused by cascading fault in large-scale hybrid ac/dc power grids, ieee transactions on power electronics, 34(8)(2019),7278-7291;

98)mirsaeidi, sohrab; dong, xinzhou; said, dalila mat,a fault current limiting approach for commutation failure prevention in lcc-hvdc transmission systems, ieee transactions on power delivery, 34(5)(2019),2018-2027;

99)chenhao zhang., guobing song., xinzhou dong, a novel traveling wave protection method for dc transmission lines using current fitting, ieee transactions on power delivery (early access), 20191217, 1-11;

100)chenhao zhang., guobing song., ting wang., xinzhou dong, an improved non-unit traveling wave protection method with adaptive threshold value and its application in hvdc grids, ieee transactions on power delivery (early access), 20191120, 1-12;

101)lv, c., sheng, w., liu, k.-y., dong, x., deng, p., multi-status modelling and event simulation in smart distribution network based on finite state machine, iet generation, transmission and distribution, 13 (13)(2019), 2846-2855;

102)zhang, g., li, z., wang, b., liu, m., dong, x., early warning method of hvdc line continuous commutation failure based on adaboost algorithm,power system protection and control, 47 (19)(2019), 69-77;

103)wang, b., cui, x., dong, x., overview of arc high impedance grounding fault detection technologies in distribution system, proceedings of the csee, 40 (1)(2020),96-107;

104)zhang, g., jing, l., wang, b., liu, m., dong, x., study on hvdc consecutive commutation failures mitigation method caused by harmonics, power system protection and control, 48 (5)(2020), 33-41;

105)zhang, c., song, g., dong, x., a non-unit adaptive traveling wave protection method for high impedance faults, proceedings of the csee, 40 (11)(2020),3548-3556;

106)zhang, c., song, g., yang, l., dong, x., non-unit travelling wave protection method for dc transmission line using waveform correlation calculation, iet generation, transmission and distribution, 14 (12)(2020),2263-2270;

107)song, g., wang, t., zhang, b., dong, x., kang, x., analysis and prospect of detective fault identification technologies using power electronic device, automation of electric power systems, 44 (20)(2020),173-183;

108)tzelepis, dimitrios; psaras, vasileios; tsotsopoulou, eleni; mirsaeidi, sohrab; dysko, adam; hong, qiteng; dong, xinzhou; blair, steven m.; nikolaidis, vassilis c.; papaspiliotopoulos, vassilis; fusiek, grzegorz; burt, graeme m.; niewczas, pawel; d. booth, campbell voltage and current measuring technologies for high voltage direct current supergrids: a technology review identifying the options for protection, fault location and automation applications, ieee access, (8)(2020),203398-203498;

109)mirsaeidi, sohrab; he, jinghan; dong, xinzhou; said, dalila mat, a fault current limiting approach for commutation failure prevention in lcc-hvdc transmission systems , ieee transactions on power delivery, 8674590, 34 (5) (2019), 2018-2027;

110)zhang, chenhao; song, guobing; yang, liming; dong, xinzhou, non-unit travelling wave protection method for dc transmission line using waveform correlation calculation, iet generation transmission & distribution, 14(12)(2020),2263-2270;

111)zhang, chenhao; song, guobing; wang, ting; dong, xinzhou, an improved non-unit traveling wave protection method with adaptive threshold value and its application in hvdc grids, ieee transactions on power delivery, 35(4)(2020),1800-1811;

112)lin, sheng; mu, dalin; liu, lei; lei, yuqing; dong, xinzhou, a novel fault diagnosis method for dc filter in hvdc systems based on parameter identification, ieee transactions on instrumentation and measurement, 69(9)(2020),5969-5971;

113)zhang, chenhao; song, guobing; yin, lishuai; xu, ruidong; li, yang; yang, liming; dong, xinzhou, application research on pilot protection method for multi-terminal hybrid line-commutated converter/modular multilever converter-based high voltage dc system, iet generation transmission & distribution, 15(1)(2021),71-85;

114)zhang, chenhao; song, guobing; dong, xinzhou, a novel traveling wave protection method for dc transmission lines using current fitting, ieee transactions on power delivery, 35(6)(2020),2980-2991;

115)mirsaeidi, sohrab; dong, xinzhou, an enhanced strategy to inhibit commutation failure in line-commutated converters, ieee transactions on industrial electronics, 67(1)(2020),340-349;

116)salehi, moslem; birjandi, ali akbar motie; dong, xinzhou, determining minimum number and placement of fault detectors in transmission network for fault location observability, international journal of electrical power & energy systems,124,2021,106386;

117)dong, xinzhou; jin, beihong; zhuo, wei; li, beibei; xue, taofeng, improving sequential recommendation with attribute-augmented graph neural networks, advances in knowledge discovery and data mining, pakdd 2021, pt ii 2021,12713,373-385;

118)zhuo, wei; liu, kunchi; xue, taofeng; jin, beihong; li, beibei; dong, xinzhou; chen, he; pan, wenhai; zhang, xuejian; zhou, shuo , a behavior-aware graph convolution network model for video recommendation, web and big data, apweb-waim 2021, pt ii 2021,12859,279-294;

119)zhang, chenhao; song, guobing; yin, lishuai; xu, ruidong; li, yang; yang, liming; dong, xinzhou, application research on pilot protection method for multi-terminal hybrid line-commutated converter/modular multilever converter-based high voltage dc system, iet generation transmission & distribution, 15(1)(2021),71-85;

120)mirsaeidi, sohrab; tzelepis, dimitrios; he, jinghan; dong, xinzhou; said, dalila mat; booth, campbell, a controllable thyristor-based commutation failure inhibitor for lcc-hvdc transmission systems, ieee transactions on power electronics, 36(4)(2021),3781-3792;

121)zhang, chenhao; song, guobing; dong, xinzhou, non-unit ultra-high-speed dc line protection method for hvdc grids using first peak time of voltage, ieee transactions on power delivery, 36(3)(2021),1683-1693;

122)zhang, chenhao; huang, jinhai; song, guobing; dong, xinzhou, non-unit ultra-high-speed line protection for multi-terminal hybrid lcc/mmc hvdc system and its application research, ieee transactions on power delivery, 36(5)(2021),2825-2838;

123)wang, hao; dai, yuanyuan; fu, luchuan; liu, feng; hu, jianli; dong, xinzhou; kang, xiaoning; li, wenzhong, power swing detecting method using principal components analysis, energy reports,7(2021),1009-1014;

124)wang, haozong; qi, zhenkang; fu, luchuan; liu, feng; hu, jianli; dong, xinzhou; li, wenzhong, fast and reliable differential protection based on traveling waves for hvdc transmission line, energy reports,7(2021),619-628;

125)zhang, c., song, g., yin, l., xu, r., li, y., yang, l., dong, x. application research on pilot protection method for multi-terminal hybrid line-commutated converter/modular multilever converter-based high voltage dc system, iet generation, transmission and distribution, 15 (1)(2021),71-85;

126)wang, b., li, z., dong, x., real-time rapid simulation method for transient response of lcc-hvdc based on dynamic phasor method, proceedings of the csee, 41 (5)(2021), 1608-1617;

127)zhang, c., song, g., dong, x., principle of non-unit traveling wave protection for vsc-hvdc transmission line using fault current initial traveling wave fitting, proceedings of the csee, 41 (8)(2021),2651-2660;

128)zhang, c., song, g., dong, x., huang, j., application research on fast line protection and adaptive restarting methods for multi-terminal hybrid lcc/mmc hvdc transmission lines, proceedings of the csee, 41(11)(2021),3873-3884;

129)zhang, c., huang, j., song, g., dong, x., non-unit ultra-high-speed line protection for multi-terminal hybrid lcc/mmc hvdc system and its application research, ieee transactions on power delivery, 36 (5)(2021),2825-2838;

130)wang, h., qi, z., fu, l., liu, f., hu, j., dong, x., li, w., fast and reliable differential protection based on traveling waves for hvdc transmission line, energy reports, 7(2021), 619-628;

131)wang, h., dai, y., fu, l., liu, f., hu, j., dong, x., kang, x., li, w., power swing detecting method using principal components analysis, energy reports, 7(2021),1009-1014;

132)zhang, c., song, g., li, y., yan, j., dong, x., principle of non-unit traveling wave protection for vsc-hvdc grids based on index of fault voltage traveling wave propagation term, proceedings of the csee, 41(24)(2021), 8424-8436;

133)dong, x., huang, y., wang, h., chen, b., wang, h., dong, q., analysis and simulation research of cascading faults in ac/dc hybrid grid, ieee open access journal of power and energy, 9,514-522;

134)zhang, c., song, g., meliopoulos, a.p.s., dong, x., setting-less nonunit protection method for dc line faults in vsc-mtdc systems, ieee transactions on industrial electronics, 69 (1)(2022),495-505;

135)wang, h., dong, x., traveling wave based differential protection for renewable energy penetrated power system, journal of electrical engineering and technology, 17 (3)(2022),1623-1630;

136)yan, q., dong, x., mu, j., ma, y., optimal configuration of energy storage in an active distribution network based on improved multi-objective particle swarm optimization, power system protection and control, 50 (10)(2022),11-19;

137)zhang, c., li, y., song, g., dong, x., fast and sensitive nonunit protection method for hvdc grids using levenberg-marquardt algorithm, ieee transactions on industrial electronics, 69 (9)(2022),9064-9074;

138)yan, q., liu, y., dong, x., ma, y., hybrid energy storage capacity optimization configuration for smoothing pv output based on ceemdan-ht, power system protection and control, 50 (21)(2022),43-53;

139)zhang, chenhao; song, guobing; meliopoulos, a. p. sakis; dong, xinzhou,, setting-less nonunit protection method for dc line faults in vsc-mtdc systems, ieee transactions on industrial electronics, 69(1)(2022),495-505;

140)dong, xinzhou; huang, yunshu; wang, haozong; chen, binshu; wang, hao; dong, qihuan, analysis and simulation research of cascading faults in ac/dc hybrid grid, ieee open access journal of power and energy, 9(2022),514-522;

141)wang, haozong; dong, xinzhou, traveling wave based differential protection for renewable energy penetrated power system, journal of electrical engineering & technology, 17(3)(2022),1623-1630;

142)dong, xinzhou; jin, beihong; zhuo, wei; li, beibei; xue, taofeng; song, jiageng, modeling user interactions by feature-augmented graph neural networks for recommendation, ccf transactions on pervasive computing and interaction, 4(3)(2022),207-218;

143)mirsaeidi, sohrab; rahman, mahmuda; he, jinghan; lu, geye; said, dalila mat; konstantinou, charalambos; li, meng; muttaqi, kashem m.; dong, xinzhou, comparison of different power flow techniques for power grid vulnerability assessment against symmetrical faults using bus impedance matrix, electric power systems research, 212(2022),108652.

4.3 international conferences papers

1)feng, t., dong, x., xu, f., li, b., research on performance test of travelling wave fault locators, proceedings - international conference on modern electric power systems, meps 2015, paper number: 7477181;

2)wang, y., dong, x., shi, s., wang, j., geng, j., field tests of the traveling wave based protection for ungrounded distribution network, proceedings - international conference on modern electric power systems, meps 2015, paper number: 7477173;

3)lei, a., dong, x., shi, s., wang, b., research of wave-head characteristics of the fault generated travelling wave on transmission line in different frequency bands, proceedings - international conference on modern electric power systems, meps 2015, paper number: 7477155;

4)xu, f., dong, x., wang, b., shi, s., a novel single-ended fault location scheme and applications considering secondary circuit transfer characteristics, ieee power and energy society general meeting, 2015-september, paper number: 7285906;

5)lei, a., dong, x., shi, s., a novel method to identify the travelling wave reflected from the fault point or the remote-end bus, ieee power and energy society general meeting, 2015-september, paper number: 7285725;

6)jiang, b., dong, x., shi, s., wang, b., fault line identification of single line to ground fault for non-effectively grounded distribution networks with double-circuit lines, ieee power and energy society general meeting, 2015-september, paper number: 7286346;

7)dong, x., luo, s., shi, s., wang, b., wang, s., ren, l., travelling wave based directional comparison protection scheme and its application in 750 kv transmission lines, ieee power and energy society general meeting, 2015-september, paper number: 7286374;

8)shang, y., shi, s., dong, x., ma, z., perfromance analysis of islanding detection based on asymmetric tripping of feeder circuit breaker under fault scenarios, proceedings - 2015 international symposium on smart electric distribution systems and technologies, edst 2015, paper number: 7315202, 173-176;

9)hu, z., shi, s., dong, x., ma, z., the research on distribution network health index based on real-time information record, proceedings - 2015 international symposium on smart electric distribution systems and technologies, edst 2015, paper number: 7315214, 241-244;

10)luo, s., dong, x., shi, s., wang, b., a non-unit protection principle based on travelling wave for hvdc transmission lines, proceedings of the universities power engineering conference, 2015-november, paper number: 7339909;

11)lei, a., dong, x., shi, s., wang, b., a novel current travelling wave based single-ended fault location method for locating single-phase-to-ground fault of transmission line, proceedings of the universities power engineering conference, 2015-november, paper number: 7339950;

12)lei, a.-y., dong, x.-z., shi, s., wang, b., approximate analytical solution of stationary component of fault-induced traveling waves on transmission line, iet conference publications, 2016 (cp671);

13)tang, l., dong, x., shi, s., wang, b., travelling wave differential protection based on equivalent travelling wave, iet conference publications, 2016 (cp671);

14)feng, t., dong, x., shi, s., wang, b., analysis of the influence of the overhead line parameters on the fault traveling wave, iet conference publications, 2016 (cp671);

15)ni, j., wang, b., dong, x., high impedance fault detection on distribution systems with harmonic interference in wind farms, iet conference publications, 2016 (cp671);

16)chen, x., bo, z., dong, x., shi, s., analysis of ant colony algorithm for finding the optimal circuitous route in the communication network of power system, proceedings of the 5th ieee international conference on electric utility deregulation, restructuring and power technologies, drpt 2015, paper number: 7432665, 2532-2535;

17)dong, x., luo, s., shi, s., wang, b., wang, s., realization and performance analysis of travelling wave based directional protection prototype, proceedings of the 5th ieee international conference on electric utility deregulation, restructuring and power technologies, drpt 2015, paper number: 7432424, 1236-1239;

18)zhao, w., shi, s., wang, z., dong, x., ac transmission line fault current analysis in 220kv ac/dc hybrid system, proceedings of the 5th ieee international conference on electric utility deregulation, restructuring and power technologies, drpt 2015, paper number: 7432397, 1105-1109;

19)ding, f., bo, z., zhang, d., chen, x., dong, x., shi, s., zigbee wireless networking for the intelligent protection center research, proceedings of the 5th ieee international conference on electric utility deregulation, restructuring and power technologies, drpt 2015, paper number: 7432668, 2545-2548;

20)feng, t., dong, x., wang, b., shi, s., luo, s., lei, a., tang, l., analysis of fault characteristics of half-wavelength ac transmission lines, ieee power and energy society general meeting, 2016-november, paper number: 77416;

21)he, s., lu, l., li, j., dong, x., shi, s., bin, w., research on the system protection for enhancing the accommodation and transmission of large scale wind power, asia-pacific power and energy engineering conference, appeec, 2016-december, paper number: 7779907, 2363-2368;

22)mirsaeidi, s., dong, x., tzelepis, d., said, d.m., dysko, a., booth, c., a predictive control strategy for mitigation of commutation failure in lcc-based hvdc systems, ieee transactions on power electronics, 34 (1), paper number: 8327514, 160-172;

23)tzelepis, d., fusiek, g., dysko, a., niewczas, p., booth, c., dong, x., novel fault location in mtdc grids with non-homogeneous transmission lines utilizing distributed current sensing technology, ieee transactions on smart grid, paper number: 8070328, 9 (5)2018, 5432-5443;

24)lei, a., dong, x., terzija, v., an ultra-high-speed directional relay based on correlation of incremental quantities, ieee transactions on power delivery, paper number: 8318659, 33 (6)(2018), 2726-2735;

25)tang, l., dong, x., wang, b., shi, s., dong, q., coombs, t., protection configuration and scheme for the transmission line of vsc-hvdc grid, ieee power and energy society general meeting, 2018-august, paper number: 8586071,123-5;

26)jia, q., dong, x., shi, s., he, x., non-communication protection for single-phase-to-ground fault feeder in neutral non-effectively grounded distribution system, ieee power and energy society general meeting, 2018-august, paper number: 8586136;

27)zhang, g., jing, l., liu, m., wang, b., dong, x., a novel directional element for high voltage hybrid ac/dc power system, china international conference on electricity distribution, ciced, paper number: 8592312, 2018, 1137-1141;

28)zhang, g., jing, l., liu, m., wang, b., dong, x., an improved continuous commutation failure mitigation method in high voltage direct current transmission system, china international conference on electricity distribution, ciced, paper number: 8592449,2018, 1132-1136;

29)li, z., wang, b., wang, h., yu, b., xie, m., chen, s., dong, x. ccf early warning method of lcc-hvdc based on xg boost algorithm. iet conference publications, 2019 (cp764);

30)ren, x., wang, b., dong, x. high impedance fault analysis and location of single-phase-to-ground fault in feeder with multiple dgs connections(2019). iet conference publications, 2019 (cp764);

31)cui, x., wang, b., dong, x. high resistance grounding fault feeder detection in a resonant grounding system based on transient current correlation coefficient comparison, iet conference publications, 2019 (cp764);

32)jia, x., wang, b., yu, b., xie, m., dai, c., cheng, x., wang, d., dong, x. overview of adaptive reclosing technique and the challenge faced in ac/dc hybrid power grid, iet conference publications, 2019 (cp764);

33)shi, s., zhu, b., mirsaeidi, s., dong, x., fault classification for transmission lines based on group sparse representation, ieee transactions on smart grid, 10 (4), paper number: 8445640, 2019, 4673-4682;

34)mirsaeidi, s., dong, x.an integrated control and protection scheme to inhibit blackouts caused by cascading fault in large-scale hybrid ac/dc power grids, ieee transactions on power electronics, paper number: 8537972, 34 (8)(2019),7278-7291;

35)jing, l., wang, b., dong, x., wang, h., yu, b., xie, m., chen, s., review of consecutive commutation failure research for hvdc transmission system, electric power automation equipment, 39 (9)(2019), 116-123;

36)xie, x., shi, s., dong, x., zheng, s., huang, t., a method for fault pole selection of dc lines based on travelling wave, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9224639, 2019, 606-610;

37)cai, j., dong, x., an adaptive restart method for dc transmission line in lcc-hvdc system, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9224988, 2019, 725-729;

38)mirsaeidi, s., he, j., dong, x., mechanism and risk areas of cascading faults: a newly emerging fault type in large-scale hybrid ac/dc power grids, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9224814, 2019, 647-654;

39)xie, m., zhang, w., liu, l., jia, x., wang, b., dong, x., analysis of adaptive re-closure in ac-dc hybrid power system, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9224656, 2019, 1151-1155;

40)xin, z., dong, x., xie, x., multi-energy hybrid power generation system based on constant power control, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9225178, 2019,745-749;

41)chen, b., dong, x., analysis of application of superconducting fault current limiter to ac line of hvdc, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9225139, 2019,1181-1185;

42)yuan, j., wei, h., zou, g., kang, j., qian, q., shi, s., dong, x., research on traveling wave based fault line selection technology in distribution system of petrochemical industry, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9225158, 2019, 1833-1837;

43)wang, h., kang, x., dong, x., a novel method of power swing blocking in impedance relay, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9225159, 2019,427-431;

44)wang, h., dong, x., commutation failure mitigation method based on improved commutation area in hvdc system, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9225122,2019, 1241-1245;

45)liu, k., cui, x., wang, b., dong, x., study on high impedance grounding fault protection for personal safety guard in distribution grid, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9225113,2019, 437-441;

46)uddin khan, m.a., hong, q., dysko, a., booth, c., wang, b., dong, x., evaluation of fault characteristic in microgrids dominated by inverter-based distributed generators with different control strategies, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9224706, 2019, 846-849;

47)xu, w., shi, s., dong, x., zhang, g., traveling waves based fault line selection using sparse representation, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9225104, 2019,1346-1350;

48)cui, x., wang, b., dong, x., liu, k., experimental research on typical single-phase high resistance grounding fault detection methods in resonant grounding distribution system, apap 2019 - 8th ieee international conference on advanced power system automation and protection, paper number: 9224765, 2019, 432-436;

49)mirsaeidi, s., dong, x., said, d.m., a fault current limiting approach for commutation failure prevention in lcc-hvdc transmission systems, ieee transactions on power delivery, paper number: 8674590, 34 (5)(2019),2018-2027;

50)feng, t., han, l., ma, w., dong, x., xiao, z., yan, p., a novel method for calculating ground return impedance of overhead lines, 2019 3rd ieee conference on energy internet and energy system integration: ubiquitous energy network connecting everything, ei2 2019, paper number: 9062273, 2019,1003-1007;

51)shi, s., zhu, b., lei, a., dong, x., fault location for radial distribution network via topology and reclosure-generating traveling waves, ieee transactions on smart grid, paper number: 8664125,10(6)(2019),6404-6413;

52)qian, q., shi, s., zhang, g., xu, d., wu, y., xi, h., dong, x., direction travelling waves based single-phase-to ground fault line section identification, iet conference publications, 2020 (cp771), paper number: 20200099;

53)zhang, c., song, g., dong, x., high-speed protection method for dc transmission lines using fault current initial traveling wave, iet conference publications, 2020 (cp771), paper number: 20200131;

54)cai, j., dong, x., adaptive deblock for dc line fault in full bridge sub-module based mmc-hvdc system, iet conference publications, 2020 (cp771), paper number: 20200094;

55)zhao, y., shi, s., zhang, g., ma, h., dong, x., single-ended traveling wave based fault location for single-phase-to-ground in power distribution lines, iet conference publications, 2020 (cp771), paper number: 20200080;

56)wang, h., kang, x., dong, x., a strategy for avoiding overload of ac line after blocking dc line in ac/dc hybrid grid, iet conference publications, 2020 (cp771), paper number: 20200079;

57)wang, h., shi, s., dong, x., symmetrical fault analysis at ac transmission line with back-to-back mmc-hvdc considering controller characteristics, iet conference publications, 2020 (cp771), paper number: 20200084;

58)xie, x., shi, s., xu, y., zhan, x., xing, z., xing, z., dong, x., fast fault detection and location of dc distribution grid based on ultra-high-speed travelling wave, iet conference publications, 2020 (cp771), paper number: 20200083;

59)wang, b., dong, x., yu, b., xie, m., wang, h., circuit breaker arc fault detection based on fault recording data in hvdc converter station, iet conference publications, 2020 (cp771), paper number: 20200096;

60)tzelepis, d., psaras, v., tsotsopoulou, e., mirsaeidi, s., dyśko, a., hong, q., dong, x., blair, s.m., nikolaidis, v.c., papaspiliotopoulos, v., fusiek, g., burt, g.m., niewczas, p., booth, c.d., voltage and current measuring technologies for high voltage direct current supergrids: a technology review identifying the options for protection, fault location and automation applications, ieee access, 8, paper number: 9248058, 2020,203398-203428;

61)mirsaeidi, s., dong, x., an enhanced strategy to inhibit commutation failure in line-commutated converters, ieee transactions on industrial electronics, paper number: 8637160, 67 (1)(2020), 340-349;

62)dong, x., guan, e., jing, l., wang, h., mirsaeidi, s., simulation and analysis of cascading faults in hybrid ac/dc power grids, international journal of electrical power and energy systems, paper number: 105492,115(2020);

63)zhang, c., song, g., wang, t., dong, x., an improved non-unit traveling wave protection method with adaptive threshold value and its application in hvdc grids, ieee transactions on power delivery, paper number: 8907453, 35 (4)(2020),1800-1811;

64)dong, x., wang, h., xin, z., shi, s., wang, b., distribution system fault location method using reclosure-generating traveling waves, ieee power and energy society general meeting, 2020-august, paper number: 9281701;

65)lin, s., mu, d., liu, l., lei, y., dong, x., a novel fault diagnosis method for dc filter in hvdc systems based on parameter identification, ieee transactions on instrumentation and measurement, paper number: 9120068, 69 (9)(2020), 5969-5971;

66)zhang, c., song, g., dong, x., a novel traveling wave protection method for dc transmission lines using current fitting, ieee transactions on power delivery, paper number: 8935213, 35 (6)(2020), 2980-2991;

67)salehi, m., akbar motie birjandi, a., dong, x. determining minimum number and placement of fault detectors in transmission network for fault location observability, international journal of electrical power and energy systems, 124, paper number: 106386;

68)zheng, s., liu, y., hu, h., yang, h., dong, p., shi, s., dong, x., traveling wave fault location and protection tester for dc lines, 2021 3rd asia energy and electrical engineering symposium, aeees 2021, paper number: 9403206, 125-129;

69)xin, z., wang, h., dong, x., ren, x., inverse time zero sequence protection based on traveling wave startup information, 2021 3rd asia energy and electrical engineering symposium, aeees 2021, paper number: 9403052,772-775;

70)mirsaeidi, s., tzelepis, d., he, j., dong, x., said, d.m., booth, c. a, controllable thyristor-based commutation failure inhibitor for lcc-hvdc transmission systems, ieee transactions on power electronics, paper number: 9185007, 36(4)(2021),3781-3792;

71)hu, h., zhan, x., liu, z., shi, s., liu, h., dong, x., simplified method for fault transient analysis of flexible dc distribution lines, 2021 ieee 4th international conference on electronics technology, icet 2021, paper number: 9451122, 484-488;

72)hu, h., shi, s., zhan, x., liu, z., liu, h., dong, x., feeder fault section identification without dc circuit breaker based on injected traveling wave, 2021 ieee 4th international conference on electronics technology, icet 2021, paper number: 9450896,544-548;

73)zhang, c., song, g., dong, x., non-unit ultra-high-speed dc line protection method for hvdc grids using first peak time of voltage, ieee transactions on power delivery, paper number: 9153168,36(3)(2021),1683-1693;

74)dai, y., zhang, m., zhang, f., chen, b., wang, h., li, w., dong, x., practical scheme of optical voltage transformer in high voltage substations, 2022 ieee 5th international conference on electronics technology, icet 2022,443-447;

75)liang, y., shi, s., dong, x., chen, j., research on application setting scheme of distribution line non-communication protection, 2022 international conference on power energy systems and applications, icopesa 2022,655-660;

76)wang, s., shang, y., shi, y., ren, j., zhang, w., shi, s., dong, x., potential fault detection of power collection lines in large new energy stations, china international conference on electricity distribution, ciced, 2022-september, 1657-1662;

77)huyang, m., dong, x., deng, c., chao, w., huang, j., lin, g., research on overcurrent suppression structure for flexible dc distribution network, china international conference on electricity distribution, ciced, 2022-september, 1668-1673;

78)wang, b., he, x., jiang, y., lv, x., zhou, z., feng, c., dong, x, testing of ethernet function of domestically-made fpga chip and acquisition board for the application of protective relaying, proceedings - 2021 international conference on power system technology: carbon neutrality and new type of power system, powercon 2021, 510-516;

79)liu, z., hu, h., liang, y., wang, y., liu, c., shi, s., dong, x., overview of modeling schemes for mmc converter in flexible dc distribution network, proceedings - 2021 international conference on machine learning and intelligent systems engineering, mlise 2021, 131-134;

80)xin, zeyu; wang, haozong; dong, xinzhou; ren, xuan, inverse time zero sequence protection based on traveling wave startup information , 2021 3rd asia energy and electrical engineering symposium (aeees 2021),9403052,772-775;

81)zheng, shaoming; liu, yimin; hu, haoyu; yang, huimin; dong, peng; shi, shenxing; dong, xinzhou, traveling wave fault location and protection tester for dc lines, 2021 3rd asia energy and electrical engineering symposium (aeees 2021),9403206,125-129;

82)xue, taofeng; dong, xinzhou; zhuo, wei; jin, beihong; chen, he; pan, wenhai; li, beibei; zhang, xuejian, feedback-guided attributed graph embedding for relevant video recommendation, machine learning and knowledge discovery in databases: applied data science track, ecml pkdd 2020, pt iv,2021,12460,19-35;

83)dong, xinzhou; wang, haozong; xin, zeyu; shi, shenxing; wang, bin ; distribution system fault location method using reclosure-generating traveling waves, ieee power & energy society general meeting (pesgm), 2020,9281701;

84)dong, xinzhou; guan, eryong; jing, liuming; wang, hao; mirsaeidi, sohrab, simulation and analysis of cascading faults in hybrid ac/dc power grids, international journal of electrical power & energy systems, 115(2020),105492.

4.4 chinese journal papers

1) dong xinzhou, ge yaozhong, a fault location algorithm for high-voltage transmission lines using both ends of the grid, automation of electric power systems, 19(8)(1995), 47-53;

2) dong xinzhou, ge yaozhong, xu bingyin, chen ping, li jing, research on travelling wave fault location of transmission lines based on gps, automation of electric power systems, 20(12)(1996), 37-40;

3) dong xinzhou, ge yaozhong, xu bingyin, chen ping, transient signal generator, power system protection and control, 25(05)(1997), 38-40, 45;

4) dong xinzhou, geng zhongxing, ge yaozhong, zhang fusheng, xu bingyin, application of wavelet transform to power system fault signal analysis, proceedings of the csee, 17(6)(1997), 421-424;

5) dong xinzhou, ge yaozhong, xu bingyin, chen ping, li jing, development of a new fault location device for transmission lines, power system technology, 22(01)(1998), 17-21;

6) adnan, xinzhou dong, jiali he, action and behavior analysis of directional high frequency protection -- part 1: multiple fault calculation for complex systems, proceeding of the csu-epsa, 10(03)(1998), 53-59, 63;

7) dong xinzhou, he jiali, ge yao-zhong, application of wavelet transform in traveling wave fault detection, protection system protection and control, 26(5)(1998), 3-6;

8) xingzhou dong, jiali he, yaozhong ge, bingyin xu, a study on fault phase selection based on wavelet transform -- part 2 simulation results, automation of electric power systems, 23(1)(1999), 20-22;

9) dong xinzhou, he jiali, ge yaozhong, xu bingyin, traveling wave fault phase selection based on wavelet transform -- part 1 theoretical basis, automation of electric power systems, 22(12)(1998), 24-26, 33;

10) xingzhou dong, yaozhong ge, bingyin xu, the fault characteristics of transient electrical waves in transmission lines and its wavelet analysis, transactions of china electrotechnical society, 14(1)(1999), 59-62;

11) dong xinzhou, he jiali, ge yaozhong, first lecture on wavelet transform, relay renamed power system protection and control, 27(1)(1999), 66-69;

12) dong xinzhou, he jiali, ge yaozhong, lecture 2 discrete wavelet transform, relay renamed power system protection and control, 27(2)(1999), 57-60;

13) xingzhou dong, yaozhong ge, bingyin xu, research on fault location of transmission line based on transient electrical wave, proceedings of the csee, 19(4)(1999), 76-80;

14) dong xinzhou, he jiali, ge yaozhong, lecture 3: binary wavelet transform and signal singularity detection, power system protection and control, 27(3)(1999), 67-70;

15) su bin, dong xinzhou, sun yuanzhang, travel wave differential protection of series capacitor compensation lines, journal of tsinghua university(science and technology)(science and technology), 45(1)(2005), 137-140;

16) zhang yancang, dong xinzhou, dong xingli, ge yaozhong, dsp and its application in travelling wave protection, electric power automation equipment, 20(02)(2000), 4-6;

17) dong xinzhou, ge yaozhong, he jiali, guo xiaojun, bo zhiqian, travel wave protection for transmission lines, automation of electric power systems, 24(10)(2000), 56-61;

18) xingli dong, xinzhou dong, yancang zhang, xiaojun guo, yaozhong ge, research on the principle of polarization comparison of traveling wave direction protection based on wavelet transform, automation of electric power systems, 24(14)(2000), 11-15, 29;

19) xingli dong, yaozhong ge, xinzhou dong, yancang zhang, comparative direction protection of traveling wave amplitude based on wavelet transform, automation of electric power systems, 24(17)(2000), 11-15, 64;

20) bin su, jiali he, xinzhou dong, yancang zhang, a new method to protect the high frequency direction of fast power frequency, proceeding of the csu-epsa, 12(06)(2000), 37-40;

21) shi shenxing, dong xinzhou, liu jianzheng, bo zhiqian, research on channelless protection of distribution lines, automation of electric power systems, 25(6)(2001), 31-14;

22) dong xinzhou, ge yaozhong, he jiali, basic principle of directional relay of wave impedance, automation of electric power systems, 25(9)(2001), 15-18, 22;

23) dong xinzhou, ge yaozhong, he jiali, research on the algorithm of wave impedance directional relay, automation of electric power systems, 25(10)(2001), 14-17;

24) xingli dong, yaozhong ge, xinzhou dong, xingli ge, a waveletless full-line fast traveling wave protection based on wavelet transform, automation of electric power systems, 25(10)(2001), 18-22;

25) dong xinzhou, ge yaozhong, he jiali, performance analysis of wave impedance directional relay, automation of electric power systems, 25(11)(2001), 24-27;

26) dong xinzhou, guo xiaojun, zhang yancang, ge yaozhong, he jiali, an implementation scheme of wave impedance directional relay, automation of electric power systems, 25(12)(2001), 20-23;

27) dong xinzhou, liu jianzheng, yu xuewen, fault characteristics and wavelet analysis of transient voltage traveling wave in transmission lines, transactions of china electrotechnical society, 16(03)(2001), 57-61, 74;

28) xingli dong, yaozhong ge, xinzhou dong, fusheng zhang, yancang zhang, jialle sonang, research on the principle of traveling wave distance protection based on wavelet transform, power system technology , 25(07)(2001), 9-13;

29) bin su, jiali he, xinzhou dong, yancang zhang, research on short-window algorithm and fast power frequency directional component, tianjin electric power technology, (z1)(2001), 9-16;

30) jianguang bi, yongji guo, yuanzhang sun, xinzhou dong, single-phase fault simulation and analysis of distribution network, automation of electric power systems, 25(18)(2001), 41-44;

31) dong xinzhou, liu jianzheng, zhang yancang, wavelet representation of traveling waves, journal of tsinghua university(science and technology) (science and technology), 41(9)(2001), 13-17;

32) wang weijian, dong xinzhou, su pengsheng, ge baoming, application of wavelet transform in main equipment protection, automation of electric power systems, 25(19)(2001), 53-54;

33) bing-yin xu, jing li, ping chen, yu chen, xinzhou dong, yao-zhong ge, p.f. gale, modern traveling wave ranging technology and its application, automation of electric power systems, 25(19)(2001), 62-65;

34) dong xinzhou, fault information wavelet transform and relay protection, power of china, 34(12)(2001), 25-29;

35) jianguang bi, yongji guo, yuanzhang sun, xinzhou dong, overvoltage analysis of ungrounded distribution network fault, power system protection and control, 29(12)(2001), 1-4;

36) chen zheng, dong xinzhou, luo chengmu, a method for measuring accuracy of current transformer saturation, automation of electric power systems, 26(1)(2002), 39-41, 52;

37) ge yaozhong, dong xinzhou, dong xingli, research on distance protection of traveling wave based on distance measurement (i), automation of electric power systems, 26(6)(2002), 34-40;

38) gan zhong, dong xinzhou, bo zhiqian, adaptive channeless protection of transmission lines (1) -- principle of fault analysis and protection, automation of electric power systems, 26(7)(2002), 33-37;

39) gan zhong, dong xinzhou, bo zhiqian, adaptive channeless protection of transmission lines (2) -- constitutive scheme and simulation test, automation of electric power systems, 26(8)(2002), 29-32, 68;

40) xingli dong, yaozhong ge, xinzhou dong, research on distance protection of traveling wave based on distance measurement (2) -- principle scheme and simulation test, automation of electric power systems, 26(09)(2002), 53-58;

41) shi shenxing, dong xinzhou, bo zhiqian, b. caunce, r. millar, implementation and experiment of channeless protection for distribution lines, automation of electric power systems, 26(12)(2002), 45-47, 63;

42) xingli dong, yaozhong ge, xinzhou dong, research on proportional traveling wave directional relay based on wavelet transform, journal of xi 'an jiaotong university, 36(8)(2002), 771-775;

43) dahai lu, yadong zhu, xinzhou dong, guangyao shao, liang yang, a new theory of transient traveling wave protection for bus based on wavelet analysis, electric power automation equipment, 22(08)(2002), 63-66;

44) xingli dong, yaozhong ge, xinzhou dong, research on lightning interference in traveling wave protection, proceedings of the csee, 22(9)(2002), 74-78;

45) yang zhonghao and dong xinzhou, a wavelet transform based inflow identification method for transformer, journal of tsinghua university (science and technology), 42(9)(2002), 1184-1187;

46) xingli dong, yaozhong ge, xinzhou dong, detection method of circuit closing to fault in travelling wave protection, proceedings of the csee, 22(10)(2002), 77-80, 90;

47) he jiali, li yongli, guo zheng, li bin, dong xinzhou, a relay protection scheme for uhv transmission lines (1) structure and operation characteristics of uhv transmission lines, automation of electric power systems, 26(23)(2002), 1-6;

48) jiali he, yongli li li, bin li, zheng guo, xinzhou dong, an uhv transmission line relay protection configuration scheme (2), automation of electric power systems, 26(24)(2002), 1-6;

49) liu jiankai, dong xinzhou, bo zhiqian, research on channel free protection of branch distribution lines, automation of electric power systems, 27(1)(2003), 37-41;

50) chen zheng, dong xinzhou, luo chengmu, a new fault location algorithm for high voltage transmission lines with series capacitance compensation device, proceedings of the csee, 23(1)(2003), 11-15;

51) ping chen, bingyin xu, jing li, xinzhou dong, yaozhong ge, travel wave fault location device and its operating experience, automation of electric power systems, 27(6)(2003), 66-69;

52) chen zheng, dong xinzhou, luo chengmu, robustness of single-terminal power-frequency fault location algorithm, journal of tsinghua university(science and technology), 43(3)(2003), 310-313,317;

53) bin su, xinzhou dong, adnan adnan, jiali he, part 2: analysis of directional high-frequency protection for multiple faults, proceeding of the csu-epsa, 15(02)(2003), 9-13, 23;

54) yang zhonghao, dong xinzhou, an improved scheme for directional relay of wave impedance, transactions of china electrotechnical society, 18(2)(2003), 22-26;

55) ge yaozhong, dong xingli, dong xinzhou, su nangjialle, research on the protection of electro-popular wave busbar based on wavelet transform (1) -- principle and criterion, transactions of china electrotechnical society, 18(02)(2003), 95-99;

56) xingli dong, yaozhong ge, xinzhou dong, research on the protection of electro-popular wave busbar based on wavelet transform (2) -- protection scheme and simulation test, transactions of china electrotechnical society, 18(3)(2003), 98-101;

57) fei chen, xinzhou dong, zhiqian bo, fast and selective radial distribution network without channel protection, automation of electric power systems, 27(22)(2003), 45-49;

58) zhiqian bo, jiankai liu, xinzhou dong, zhiqian bo, realization of distribution lines with branches without channel protection, automation of electric power systems, 27(23)(2003), 41-44;

59) shi shenxing, dong xinzhou, zhou shuangxi, bo zhiqian, b. caunce., performance analysis of channelless protection under transformational faults, automation of electric power systems, 28(11)(2004), 6-8, 27;

60) fault analysis and protection principle, automation of electric power systems, 28(11)(2004), 53-56;

61) li youyi, dong xinzhou, sun yuanzhang, bo zhiqian, research on the protection of double-loop channel without channel (2) simulation test, automation of electric power system, 28(12)(2004), 69-72;

62) li youyi, dong xinzhou, sun yuanzhang, bo zhiqian, brj caunce, research on the protection of double-loop channel without channel (3) protection implementation and test, automation of electric power systems, 28(13)(2004), 69-72;

63) bin su, xinzhou dong, yuan-zhang sun, jia-li he, analysis of high frequency protection behavior in the negative sequence direction of uhv series complement lines, automation of electric power systems, 28(14)(2004), 9-13;

64) qingping wang, xinzhou dong, shuangxi zhou, chaoying chen, liyi chen, simulation and analysis of fault transient of central china power grid, automation of electric power systems, 28(17)(2004), 81-83;

65) qingping wang, xinzhou dong, shuangxi zhou, chaoying chen, liyi chen, numerical calculation of the whole transient process of a transformer based on an adaptive model, automation of electric power systems, 28(18)(2004), 54-58;

66) su bin, dong xinzhou, sun yuanzhang, travel wave differential protection based on wavelet transform, automation of electric power systems, 28(18)(2004), 25-29, 35;

67) wang qingping, dong xinzhou, zhou shuangxi, chen chaoying, chen liyi, adaptive transient computing model for transmission lines, journal of tsinghua university(science and technology), 44(10)(2004), 1313-1316;

68) qingping wang, xinzhou dong, shuangxi zhou, chaoying chen, liyi chen, application of adaptive transient computing in relay protection analysis, proceedings of the csee, 24(11)(2004), 43-47;

69) bin su, xinzhou dong, yuanzhang sun, travel wave differential protection for uhv parallel reactor lines, automation of electric power systems, 28(23)(2004), 41-44, 70;

70) fei chen, zhiqian bo, xinzhou dong, and zhiqian bo, a fast and selective radial distribution network without channel protection, automation of electric power systems, 28(24)(2004), 46-50;

71) jianguang bi, xinzhou dong, shuangxi zhou, grounding method based on two-phase current traveling wave, automation of electric power systems, 29(3)(2005), 17-20, 50;

72) dong xinzhou, bi jianguang, analysis of transient traveling wave and grounding line selection for distribution lines, proceedings of the csee, 25(4)(2005), 1-6;

73) bin su, xinzhou dong, yuanzhang sun, distributed capacitance current compensation algorithm for ultra high voltage lines with differential protection, automation of electric power systems, 29(08)(2005), 36-40, 59;

74) mei zhang, xinzhou dong, zhiqian bo, caunce b.r.j., a practical channeless protection scheme for distribution lines, automation of electric power systems, 29(12)(2005), 68-72;

75) zhiqian bo, jinghan he, xinzhou dong, integrated protection of power systems, power system protection and control relay, 33(14)(2005), 6-10, 47;

76) qiang lu, xinzhou dong, relay protection and power system disaster prevention, power system protection and control relay, 33(14)(2005), 1-5, 64;

77) dong xinzhou, luo shuxin, shi shenxing, wang bin, wang shiyong, cui liu, wang jun, ren li, jiang bo, xu fei, wu jielong, liu feng, su xiaohua, zhang yancang, guo xiaojun, lan jinbo, qian guoming, electric power automation equipment, 35(9)(2015), 1-5;

78) shi shenxing, dong xinzhou, zhou shuangxi, a new method for identifying the second reverse traveling wave of single-phase ground fault, automation of electric power systems, 30(10)(2006), 41-44, 59;

79) kong ruizhong, dong xinzhou, bi jianguang, an experimental study of a small current ground line selection device based on electro-popular wave, automation of electric power systems, 30(5)(2006), 63-67;

80) wang bin, pan zhencun, xu wenyuan, dong xinzhou, evaluation of drop protection performance of distribution line current protection, automation of electric power systems, 30(6)(2006), 25-29, 41;

81) yuan-zhang sun, youyi li, xinzhou dong, yuan-zhang sun, a phase-selecting device for compensating voltage mutation based on traveling wave theory, automation of electric power systems, 30(8)(2006), 37-40;

82) haigang wang, xinzhou dong, zhiqian bo, a sensitive and reliable current differential protection criterion for transmission lines, power system technology, 30(10)(2006), 90-93, 99;

83) li youyi, dong xinzhou, sun yuanzhang, comparison of principle and criterion of different wave direction elements, journal of tsinghua university(science and technology) (science & technology), 46(7)(2006), 1208-1211;

84) sun rongzhi, wen boying, dong xinzhou, qin lijun, analysis and improvement of differential equation solution algorithm for microcomputer distance protection of transmission lines, modern electric power, 23(04)(2006), 15-18;

85) wang bin, pan zhencun, dong xinzhou, full speed cutting treatment scheme for power distribution lines with voltage sag, power system technology , 30(21)(2006), 84-88;

86) mingcai kang, xinzhou dong, research on the application of non-channel protection, chinese university science & technology, (z1)(2006), 268-270;

87) xzheng chai, xidong liang, rong zeng, xinzhou dong, analysis of compact transmission lines' electrical parameters, power system technology, 31(1)(2007), 16-19, 24;

88) bin wang, zhencun pan, xinzhou dong, a fault path search algorithm for complex distribution networks based on voltage sag state estimation, power system technology, 31(10)(2007), 55-60;

89) xin zhou dong, shen xing shi, bin wang, wei kong, zhiqian bo, a novel distribution line automation model, proceeding of the csu-epsa, 19(3)(2007), 1-7;

90) bin wang, xinzhou dong, shuangxi zhou, zhiqian bo, a. klimek, b. caunce, analysis of ground impedance relay for uhv ac transmission lines, automation of electric power systems, 31(17)(2007), 45-49, 86;

91) tang feng, yuan yue, wang bin, dong xinzhou, simulation analysis of uhv ac transmission line negative sequence direction protection, power system protection and control, 35(s1)(2007), 30-35;

92) zhang ning, dong xinzhou, bo zhiqian, a. klimek, research on integrated current differential protection for transmission lines, journal of electric power science and technology, 22(04)(2007), 16-19;

93) wang bin, dong xinzhou, bo zhiqian, andrew klimek, application of zero-sequence reactance relays in uhv ac transmission lines, automation of electric power systems, 32(4)(2008), 46-50;

94) wang kan, shi shenxing, yang jianming, dong xinzhou, a transient traveling-wave based grounding device and its field test, electric power automation equipment, 28(6)(2008), 118-121;

95) wang bin, dong xinzhou, bo zhiqian, andrew klimek, single-phase grounding fault location of ultra-high voltage long line with single-terminal impedance method, automation of electric power systems, 32(14)(2008), 25-29;

96) shi shenxing, dong xinzhou, research on the principle of fault line selection based on single-phase current wave, power system protection and control, 36(14)(2008), 13-16;

97) wang bin, dong xinzhou, bo zhiqian, andrew klimek, analysis and improvement of zero-sequence reactance relay for uhv long line, transactions of china electrotechnical society, 60(12)(2008), 60-64;

98) dong xinzhou, ding lei, research on the structure design of digital integrated protection and control system, power system protection and control, 37(1)(2009), 1-5;

99) wang bin, dong xinzhou, bo zhiqian, andrew klimek, a negative sequence longitudinal protection method for non-full-phase operating transmission lines, automation of electric power systems, 33(12)(2009), 61-66;

100) kun liu, xinzhou dong, an integrated protection scheme based on local information to prevent chain tripping, guangdong electric power, 28(09)(2015), 79-84;

101) yonghui jiang, boying wen, lei ding, xinzhou dong, data processing algorithm based on digital substation ied interface, power system technology, 34(02)(2010), 190-193;

102) wang bin, dong xinzhou, bo zhiqian, feasibility analysis of full-band fault information utilization in digital substation, power system protection and control, 38(13)(2010), 17-21;

103) dong xinzhou, ding lei, liu kun, shi shenxing, wang bin, cui liu, bo zhiqian, local information based system protection, proceedings of the chinese society for electrical engineering, 30(22)(2010), 7-13;

104) shen xing shi, li ren, zeyu liu, xinzhou dong, development of an iec61850 traveling-wave current line selection device, automation of electric power systems, 31(3)(2011), 131-134;

105) li xuyang, dong xinzhou, bo zhiqian, research on ferroresonance detection of power transformers, power system protection and control, 39(09)(2011), 102-107;

106) bin wang, xinzhou dong, zhencun pan, zhiqian bo, analysis of voltage sag propagation in power distribution system with wind power connected, automation of electric power systems, 35(10)(2011), 53-58;

107) kun liu, xinzhou dong, bin wang, shenxing shi, influence of fault dynamic process on power flow transfer identification, automation of electric power systems, 35(13)(2011), 31-36;

108) kun liu, xin zhou dong, bin wang, shen xing shi, power flow transfer recognition based on local information, automation of electric power systems, 35(14)(2011), 80-86;

109) wang bin, ge zheng, dong xinzhou, jin enshu, bo zhiqian, analysis on communication characteristics of process bus information sharing in intelligent distribution substation, automation of electric power systems, 35(18)(2011), 62-66;

110) shiyong wang, xinzhou dong, shenxing shi, uniformity analysis of traveling wave polarity at different frequency bands, automation of electric power systems, 35(20)(2011), 68-73;

111) xinzhou dong, shiyong wang, shenxing shi, polarization current wave directional relay, automation of electric power systems, 35(21)(2011), 78-83,100;

112) kun liu, xinzhou dong, shenxing shi, bin wang, an integrated distribution line automation system with no channel protection based on symmetric faults, journal of tsinghua university(science and technology) (science & technology), 51(11)(2011), 1562-1567;

113) shiyong wang, xinzhou dong, shenxing shi, an implementation scheme of polarization current wave directional relay, automation of electric power systems, 35(23)(2011), 76-81;

114) bin wang, xinzhou dong, analysis of equivalent low voltage crossing capacity of wind farm current protection, automation of electric power systems, 35(24)(2011), 23-27;

115) wang bin, dong xinzhou, xu fei, cao runbin, liu kun, bo zhiqian, analysis of integrated protection control information sharing in intelligent distribution substation, proceedings of the csee, 31(s1)(2011), 1-6;

116) shi 'en he, xinzhou dong, analysis and countermeasures of large-scale wind turbine off-grid, power system protection and control, 40(1)(2012), 131-137,144;

117) jian liu, xinzhou dong, xingying chen, xiaoqing zhang, zhihua zhang, research on the key technology of fault-tolerant processing in distribution network, power system technology, 36(1)(2012), 253-257;

118) kun liu, xinzhou dong, shen xing shi, bin wang, reclosing scheme for distribution lines without channel protection, journal of tsinghua university(science and technology) (natural science), 52(03)(2012), 356-361;

119) liu kun, dong xinzhou, applicability analysis of single terminal combined fault location method, guangdong electric power, 25(06)(2012), 9-14;

120) liu kun, dong xinzhou, li youyi, the implementation of double-loop channelless integrated protection scheme, southern power system technology, 6(04)(2012), 11-16;

121) kun liu, xinzhou dong, power line protection and detection based on directional traveling wave, guangdong electric power, 25(10)(2012), 22-27, 32;

122) shi shenxing, dong xinzhou, wu jiahua, shen dong, self-healing scheme for single-phase grounding fault of distribution lines, electric power automation equipment, 32(11)(2012), 97-101;

123) li youyi, dong xinzhou, sun yuanzhang, transmission line transverse differential protection based on current wave, proceedings of the csee, 22(11)(2002), 6-10;

124) wang bin, dong xinzhou, zhang daonong, the application of devinen equivalent analysis in power system and the influence of flexible access of dg, north china electric power, (12)(2012), 29-34;

125) shi shenxing, xu gang, dong xinzhou, yin diqing, liu kun, wang kai, application scheme of distribution line automation system based on non-channel protection, advanced technology of electrical engineering and energy, 32(1)(2013), 94-97, 103;

126) bo zhiqian, zhang baohui, dong xinzhou, he jinghan, lin xiangning, zeng xiangjun, li bin, the development of intelligent protection and intelligent relay network, power system protection and control, 41(02)(2013), 1-12;

127) dong xinzhou, cao runbin, wang bin, shi shenxing, dominik bak, power outages and relays in india, power system protection and control, 41(2)(2013), 19-25;

128) kun liu, xinzhou dong, a fast control strategy generation method based on local information to prevent chain tripping, guangdong electric power, 26(03)(2013), 19-25, 36;

129) xinzhou dong, jun wang, shenxing shi, principle and algorithm of single-phase grounded traveling wave protection for power distribution lines, proceedings of the csee, 33(10)(2013), 154-160, s20;

130) wang jun, dong xinzhou, shi shenxing, implementation and experiment of single-phase grounded traveling wave protection for distribution lines, proceedings of the csee, 33(13)(2013), 172-8;

131) kun liu, zhiqian bo, xinzhou dong, zhiqian bo, an automatic input device for power distribution lines without channel protection, automation of electric power systems, 33(6)(2013), 147-151, 162;

132) wang jun, dong xinzhou, shi shenxing, research on traveling wave propagation of radial overhead distribution lines considering the frequency variation characteristics, proceedings of the csee, 33(22)(2013), 96-102;

133) geng jianzhao, wang bin, dong xinzhou, bak dominik, analysis and detection of high-resistance ground faults in neutral earthed distribution networks, automation of electric power systems, 37(16)(2013), 85-91;

134) jian liu, xiaoqing zhang, xingying chen, bingbing shen, xinzhou dong, zhihua zhang, a fault handling model based on centralized intelligence and distributed intelligence, power system technology, 37(9)(2013), 2608-2614;

135) li ren, xin zhou dong, shen xing shi, bin wang, dominik bak, characteristics of a polarized current-wave directional relay on a transmission line with a parallel reactor, automation of electric power systems, 37(21)(2013), 169-175;

136) liu cui, xinzhou dong, shen xing shi, bin wang, dominik bak, a multiphase compensated distance relay with oscillations and single-phase ground faults, proceedings of the csee, 33(34)(2013), 214-222;

137) wang bin, huang lei, cao runbin, dong xinzhou, kang mingcai, design and test of 126kv intelligent terminal in intelligent substation, power system protection and control, 42(01)(2014), 119-125;

138) xin zhou dong, bin su, shen xing shi, secondary disturbance information and its application in relay protection, automation of electric power systems, 28(2)(2004), 21-25;

139) bi jianguang, dong xinzhou, guo yongji, a fault component algorithm based on fault attachment network, journal of tsinghua university(science and technology) (science and technology), 14(1)(2004), 89-92;

140) xinzhou dong, runbin cao, liu cui, bin wang, shenxing shi, dominik bak, brian kirby, xia yang, an integrated backup protection scheme for modern power systems, power system protection and control, 42(5)(2014), 21-25;

141) zhu shengshi, cui liu, dong xinzhou, distance protection from power system oscillation, proceedings of the csee, 34(7)(2014), 1175-1182;

142) fei xu, xinzhou dong, bin wang, shenxing shi, a novel fault location method based on single terminal volume, electric power automation equipment, 34(4)(2014), 37-42;

143) cao runbin, dong xinzhou, wang bin, shi shenxing, bak dominik, he shien, sun chenjun, implementation of digital integrated protection control system, electric power automation equipment, 34(5)(2014), 149-155;

144) bin wang, jianzhao geng, xinzhou dong, an accurate modeling of high resistance ground fault of distribution lines based on dielectric breakdown principle, automation of electric power systems, 38(12)(2014), 62-66, 106;

145) liu cui, xinzhou dong, multiphase compensated distance relay with transition resistance, proceedings of the csee, 34(19)(2014), 3220-3225;

146) bin wang, jianzhao geng, xinzhou dong, voltammetric analysis and detection of high resistance ground fault in distribution network, proceedings of the csee, 24(22)(2014), 3815-3823;

147) shuxin luo, xinzhou dong, shenxing shi, shiyong wang, application of polarization current wave direction relay in series complement circuit, automation of electric power systems, 38(15)(2014), 100-105, 111;

148) wang bin, ni jiang, dong xinzhou, analysis of the application of traveling wave line selection technology in intelligent substation, advanced technology of electrical engineering and energy, 33(10)(2014), 1-6, 22;

149) dong xinzhou, su bin, bo zhiqian, he jiali, research on special problems of relay protection for ultra-high voltage transmission lines, automation of electric power systems, 28(22)(2004), 19-22;

150) jiang bo, dong xinzhou, shi shenxing, single-phase grounding fault selection method for distribution lines based on single-phase current wave, proceedings of the csee, 34(34)(2014), 6216-6227;

151) fei xu, xinzhou dong, electric wave propagation characteristics of secondary circuit in substation, journal of tsinghua university(science and technology), 55(2)(2015), 251-256;

152) liu kun, dong xinzhou, an adaptive overload protection scheme based on local information, guangdong electric power, 28(04)(2015), 45-50, 67;

153) cao runbin, dong xinzhou, he shien, analysis of distance protection in case of accident overload, proceedings of the csee, 35(13)(2015), 3314-3323;

154) liu kun, cao runbin, dong xinzhou, a solution to avoid unreasonable operation of remote backup protection under accident overload condition, guangdong electric power, 28(07)(2015), 78-83,108;

155) jianzhao geng, bin wang, xinzhou dong, an accurate single-terminal distance measurement method for transmission lines based on single-phase grounding information, transactions of china electrotechnical society, 30(16)(2015), 184-193;

156) jiang bo, dong xinzhou, shi shenxing, application of approximate entropy in secondary fault detection of distribution network, power system protection and control, 43(17)(2015), 15-21;

157) fei xu, xin zhou dong, bin wang, shen xing shi, a single-end combined distance measurement algorithm considering the transient characteristics of secondary circuit and its application, proceedings of the csee, 35(20)(2015), 5210-5219;

158) jiang bo, dong xinzhou, shi shenxing, experimental study on the typical method of single-phase grounding fault line selection in distribution network, electric power automation equipment, 35(11)(2015), 67-74;

159) zhigang liao, shien he, xinzhou dong, bin wang, runbin cao, shenxing shi, jin li, wei zheng, research on the system protection of large-scale wind power acceptance and delivery, power system protection and control, 43(22)(2015), 41-46;

160) shenxing shi, xinzhou dong, shuangxi zhou, traveling wave analysis of single-phase earth fault, automation of electric power systems, 29(23)(2005), 29-32, 53;

161) bo jiang, xinzhou dong, shen xing shi, bin wang, an adaptive time-frequency window traveling wave line selection method, proceedings of the csee, 35(24)(2015), 6387-6397;

162) aoyu lei, xinzhou dong, shenxing shi, a method for identifying the second reverse traveling wave of a single phase ground fault in a transmission line, proceedings of the csee, 36(8)(2016), 2151-2158;

163) shuxin luo, xinzhou dong, single-terminal protection of dc line based on fault traveling wave process, guangdong electric power, 29(09)(2016), 52-57;

164) eryong guan, xinzhou dong, teng feng, a solid state dc current limiter topology, proceedings of the csee, 37(4)(2017), 978-985;

165) xinzhou dong, teng feng, fei wang, shenxing shi, bin wang, shuxin luo, transient traveling wave protection tester, automation of electric power systems, 37(2)(2017), 192-198;

166) lanxi tang, xinzhou dong, travel wave differential current characteristics of half wavelength ac transmission lines, proceedings of the csee, 37(8)(2017), 2261-2269, s10;

167) yuanyuan lu, bin wang, hui liu, linlin wu, can chen, xinzhou dong, a single terminal location method for single-phase grounding fault of wind power grid, automation of electric power systems, 41(10)(2017), 100-105;

168) ao yu lei, xinzhou dong, teng feng, lanxi tang, the fault direction characteristics of a half-wavelength transmission line after a short circuit fault, power system technology, 41(12)(2017), 3832-3838;

169) wang bin, wei xiangxiang, zhang guohui, wen boying, feng yingchun, dong xinzhou, modeling and analysis of arc-burning fault of ac filter branch circuit breaker in converter station, proceedings of the csee, 38(5)(2018), 1496-1503;

170) wang bin, wei xiangxiang, zhang guohui, feng yingchun, wen boying, dong xinzhou, high frequency arc-burning fault detection of ac filter branch circuit breakers, proceeding of the csee, 38(6)(2018), 1837-1845, s27;

171) xin zhou dong, teng feng, fei wang, key technology of transient signal generator for traveling wave protection testing, automation of electric power systems, 37(11)(2017), 66-71, 77;

172) teng feng, xinzhou dong, an approach to arcs in electromagnetic transient simulation of overhead circuits, proceedings of the csee, 38(9)(2018), s11;

173) dong xinzhou, lei aoyu, tang lanxi, a comparative study of traveling wave differential protection and current differential protection for power lines, power system protection and control, 46(01)(2018), 1-8;

174) yang lin, wang bin, dong xinzhou, research on fault location of high-voltage direct current transmission lines, automation of electric power systems, 42(8)(2018), 185-191;

175) xinzhou dong, lanxi tang, shenxing shi, yufeng qiu, ming kong, hui pang, line protection scheme of flexible dc transmission network, power system technology, 42(6)(2018), 1752-1759;

176) xinzhou dong, ao-yu lei, lanxi tang, bin wang, shenxing shi, traveling wave performance analysis and differential protection technology challenges and prospects, automation of electric power systems, 42(19)(2018), 184-191;

177) feng teng, dong xinzhou, performance test method of two-terminal traveling wave fault location device, electric power automation equipment, 38(09)(2018), 114-120, 128;

178) lanxi tang, xinzhou dong, shenxing shi, ming kong, yufeng qiu, ultra-high speed traveling wave protection for flexible dc power grid, journal of power system technology, 42(10)(2018), 3182-3192;

179) dong xinzhou, tang yong, bu guangquan, shen shen, song guobing, wang zengping, gan deqiang, hou junxian, wang bin, zhao bing, shi shenxing, ieee transactions on the safe operation of large ac-dc hybrid power grid, proceedings of the csee, 39(11)(2019), 3107-3118;

180) tang lanxi, dong xinzhou, an approximate method for calculating short-circuit fault current in mmc dc transmission network, proceedings of the csee, 39(2)(2019), 490-498;

181) jing cai, xinzhou dong, a review of fault removal and recovery strategies for high voltage direct current transmission lines, automation of electric power systems, 43(11)(2019), 181-190;

182) guan eryong, dong xinzhou, wang hao, study on the operation strategy of a combined fault limiting device for dc power grid, proceedings of the csee, 39(11)(2019), 3222-3230;

183) qi jia, xinzhou dong, shenxing shi, application of single-phase grounding traveling wave protection scheme for radial distribution lines, proceedings of the csee, 39(6)(2019), 1543-1550;

184) liuming jing, bin wang, xinzhou dong, haigang wang, bin yu, min xie, shi chen, a review of continuous switching failure in high-voltage direct current transmission systems, electric power automation equipment, 39(9)(2019), 116-123;

185) zhang chenhao, song guobing, dong xinzhou, yang liming, fast protection principle of dc transmission line based on wave front generalized logistic function fitting, proceedings of the csee, 39(11)(2019), 3168-3175;

186) guohui zhang, zhizhong li, bin wang, meng liu, xinzhou dong, an adaboost-based method for predicting the failure of high-voltage direct current transmission lines, power system protection and control, 47(19)(2019), 69-77;

187) wang bin, cui xin, dong xinzhou, review on high resistance arc fault detection of power distribution lines, proceedings of the csee, 20191218, 1-12;

188) ao yu lei, xin zhou dong, travel wave differential protection method for ultra/uhv transmission lines, proceedings of the csee, 39(23)(2019), 6826-6835 7096;

189) dong xinzhou, tang yong, bu guangquan, wang bin, editorial message, electric power automation equipment, 39(9)(2019), 1-2 7;

190) chen hao zhang, song guobing, dong xinzhou, a single-end adaptive traveling wave protection method for high-resistance faults, proceedings of the csee, 20190730, 1-11;

191) shuxin luo, xinzhou dong, analysis and prospect of high voltage direct current transmission line protection based on lcc, guangdong electric power, 32(2)(2019), 121-129;

192) jia qi, dong xinzhou, shi shenxing. a practical scheme for single-phase grounded traveling wave protection of radial distribution lines [j]. proceedings of the csee,39(06)(2019),1543-1550 1851;

193) tang lanxi, dong xinzhou. approximate calculation method of short-circuit fault current in mmc dc transmission network. proceeding of the csee,39(02)(2019),490-498 646;

194) guan eryong, dong xinzhou, wang hao. research on combined fault current limiting device and its operation strategy for dc power network [j]. proceeding of the csee, 39(11)(2019),3222-3231;

195) dong xinzhou, tang yong, bu guangquan, shen shen, song guobing, wang zengping, gan deqiang, hou junxian, wang bin, zhao bing, shi shenxing. problems and challenges in safe operation of large ac-dc hybrid power networks [j]. proceedings of the csee, 39(11)(2019),3107-3119;

196) zhang chenhao, song guobing, dong xinzhou, yang liming. fast protection principle of hvdc transmission line using wave front generalized logistic function fitting [j]. proceedings of the csee, 39(11)(2019),3168-3176;

197) cai jing, dong xinzhou. research review on fault removal and recovery strategies of hvdc transmission lines [j]. automation of electric power systems,43(11)(2019),181-190;

198) jing liuming, wang bin, dong xinzhou, wang haigang, yu bin, xie min, chen shi. review of continuous commutation failure in hvdc transmission systems [j]. electric power automation equipment,39(09)(2019),116-123;

199) dong xinzhou, tang yong, bu guangquan, wang bin. [j]. electric power automation equipment,39(09)(2019),1-2 7;

200) guohui zhang, zhizhong li, bin wang, meng liu, xinzhou dong. continuous commutation failure warning method for hvdc line based on adaboost [j]. power system protection and control,47(19)(2019),69-77;

201) lei aoyu, dong xinzhou. a method of short-time window traveling wave differential protection for wide-frequency windows of ultra/uhv transmission lines [j]. proceeding of the csee,39(23)(2019),6826-6835 7096;

202) zhang chenhao, song guobing, dong xinzhou. a single-terminal adaptive traveling wave protection method for high resistance faults [j]. proceedings of the csee,40(11)(2020),3548-3557;

203) wang bin, cui xin, dong xinzhou. review of arc high resistance fault detection technology for distribution lines [j]. proceedings of the csee,20,40(01):96-107 377;

204) dong xinzhou, tang yong, bu guangquan. [j]. automation of electric power systems,2020,44(22):1;

205) zhang guohui, jing liuming, wang bin, liu meng, dong xinzhou. research on the suppression method of continuous commutation failure of high voltage direct current transmission induced by harmonics [j]. power system protection and control,48(5)(2020),33-41;

206) song guobing, wang ting, zhang baohui, dong xinzhou, kang xiaoning. analysis and prospect of detection fault recognition technology using power electronic devices [j]. automation of electric power systems,44(20)(2020),173-183;

207) zhang chenhao, song guobing, dong xinzhou. principle of single-ended travelling wave protection for flexible dc transmission lines using fault current first travelling wave fitting [j]. proceedings of the csee,41(08)(2021),2651-2661;

208) wang bin, li zhizhong, dong xinzhou. real-time and fast simulation method for transient response of dc system based on dynamic phasor method [j]. proceedings of the csee,41(05)(2021),1608-1618;

209) zhang chenhao, song guobing, dong xinzhou, huang jinhai. research on fast protection and adaptive restart of hybrid multi-terminal hvdc transmission lines [j]. proceedings of the csee,41(11)(2021),3873-3885;

210) zhang chenhao, song guobing, li yang, yan jifei, dong xinzhou. principle of single-ended traveling wave protection for flexible hvdc transmission lines based on the exponential coefficient of fault voltage traveling wave propagation term [j]. proceedings of the csee,41(24)(2021),8424-8437;

211) yan qunmin, dong xinzhou, mu jiahao, ma yongxiang. energy storage optimization of active distribution network based on improved multi-objective particle swarm optimization [j]. power system protection and control,50(10)(2022),11-19;

212) yan qunmin, liu yuchen, dong xinzhou, ma yongxiang. optimal allocation of hybrid energy storage capacity based on ceemdan-ht [j]. power system protection and control, 50(21)(2022),43-53.

4.5 international authorized patents

1)xinzhou dong, tao cui, zhiqian bo, andrzej klimek, andrzej juszczyk; method and system for transient and intermittent earth fault detection and direction determination in a three-phase median voltage electric power distribution system, europe; 2013.3.20; ep 2417467b1;alstom technology ltd, tsinghua university;

2)dong xinzhou, cui tao, bo zhiqian, klimek andrzej, juszczyk andrzej; verfahren und system zur detektion von transienten und in abständen auftretenden erdfehlern und richtungsbestimmung in einem elektrischen dreiphasen-mittelspannungs-energieverteilungssystem; 2013; ep 02417467; switzerland ch;

3)juszczyk, andrzej, walbrzych, bo, zhiqian, dong, xinzhou, klimek, andrzej, cui, tao; verfahren und system zur detektion von transienten- und in abständen auftretenden erdfehlern und richtungsbestimmung in einem elektrischen dreiphasen-mittelspannungs-energieverteilungssystem; 2013; ep 2417467; germany de;

4)dong xinzhou, cui tao, bo zhiqian, klimek andrzej, juszczyk andrzej; procédé et système pour la détection des défauts à la terre transitoires et intermittents et la détermination de la direction dans un système de distribution d'énergie électrique triphasé à tension moyenne; 2013; ep 2417467; france fr;

5)dong xinzhou, cui tao, bo zhiqian, klimek andrzej, juszczyk andrzej; method and system for transient and intermittent earth fault detection and direction determination in a three-phase medium voltage electric power distribution; 2013; ep 2417467; uk gb;

6)dong xinzhou, cui tao, bo zhiqian, klimek andrzej, juszczyk andrzej; verfahren und system zur detektion von transienten- und in abständen auftretenden erdfehlern und richtungsbestimmung in einem elektrischen dreiphasen-mittelspannungs-energieverteilungssystem; 2013; ep 02417467; liechtenstein li;

7)dong xinzhou, cui tao; method for detecting single phase grounding fault based on harmonic component of residual current; 2014; us 08918296b2; usa;

8)dong xinzhou, cui tao; method for detecting single phase grounding fault based on harmonic component of residual current; 2016; ca 2741425c; canada;

9)dong xinzhou, cui tao; method for detecting single phase grounding fault based on harmonic component of residual current; 2015; ep 2352038b1; europe;

10)dong xinzhou, cui tao; verfahren zum detektieren eines einphasen-erdungsfehlers auf der basis der oberschwingungskomponente des reststroms; 2015; ep 02352038; switzerland ch;

11)dong xinzhou, cui tao; verfahren zum detektieren eines einphasen-erdungsfehlers auf der basis der oberschwingungskomponente des reststroms; 2015; ep 2352038; germany de;

12)dong xinzhou, cui tao; procédé de détection de défaut de mise à la terre en monophasé basé sur la composante harmonique du courant résiduel; 2011; ep 2352038; france fr;

13)dong xinzhou, cui tao; method for detecting single phase grounding fault based on harmonic component of residual current; 2015; ep 2352038; uk gb;

14)dong xinzhou, cui tao; verfahren zum detektieren eines einphasen-erdungsfehlers auf der basis der oberschwingungskomponente des reststroms; 2015; ep 02352038; liechtenstein li;

15)xinzhou dong, xuyang li, zhiqian bo, ray chatfield, andrzej klimek; method and system for online ferroresonance detection; 2016; us 09246326b2; usa;

16)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection; 2017; ca 2801214c; canada;

17)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection; 2013; ep 2577827b1; europe;

18)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection, verfahren und system für online-ferroresonanzerkennung; 2014; ep 02577827; swtizerland; ch;

19)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection, procédé et système de détection de ferrorésonance en ligne; 2014; ep 2577827; france fr;

20)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection; 2014; ep 2577827; uk gb;

21)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection; 2014; 2577827; ireland ie;

22)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection, verfahren und system für online-ferroresonanzerkennung; 2014; ep 02577827; liechtenstein li;

23)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection; 2014; ep 2577827; 卢luxembourg lu;

24)dong xinzhou, li xuyang, bo zhiqian, chatfield ray, klimek andrzej; method and system for online ferroresonance detection; 2014; ep 2577827.

4.6 china authorized patents

1) dong xinzhou, zhang yancang; high speed synchronous data acquisition and digital signal processing board; authorization date: september 24, 2009; patent number: zl 00 1 0912 6.3; tsinghua university, guodian nanjing automation co., ltd;

2) dong xinzhou, shi shenxing, wang shiyong, cui liu, wang jun, wang fei, jiang bo; method, device and system for longitudinal protection of ultra-high speed traveling wave direction of high voltage transmission lines; authorization date: may 14, 2014; patent number: zl 2011 1 0047582.5; tsinghua university;

3) dong xinzhou, lei aoyu; methods, devices, equipment and media for travelling wave differential protection of power lines; authorization date: 2019.9.20; patent number: zl 2018 1 0034057.1; tsinghua university;

4) dong xinzhou, tang lanxi, shi shenxing, etc.; protection method and protection device of flexible dc transmission line; authorization date: 2019.3.1; patent number: zl 2016 1 0998450.3; tsinghua university;

5) dong xinzhou; fault line selection device for single-phase grounding in small current grounding system; authorization date: 2002.2.13; patent number: zl 01118471.x; tsinghua university;

6) dong xinzhou, zhang yancang, yu xuewen; transient traveling wave protection tester; authorization date: 2004.3.17; patent number: zl 01 1 20138.x; tsinghua university;

7) dong xinzhou, ding lei; digital substation protection control method and multifunctional protection controller; authorization date: april 27, 2011; patent number: zl 20081 0223970.2; tsinghua university;

8) dong xinzhou, cao runbin, shi shenxing, et al. accident overload locking method of station range protection iii; authorization date: 2018.4.10; patent number: zl 2014 1 0805868.9; tsinghua university;

9) dong xinzhou, shi shenxing; a relay protection method for asymmetrical faults of distribution lines; date of authorization: 2014.11.4; patent number: zl 2012 1 0138050.7; tsinghua university;

10) dong xinzhou, yu xuewen, liu jianzheng; high speed synchronous digital/analog conversion template and its data processing and control method; authorization date: 2004.3.10; patent number: zl 00 1 09127.1; tsinghua university;

11) dong xinzhou, bo zhiqian; distribution network relay protection and fault location system; authorization date: february, 2002.2.6; patent number: zl 01 1 30657.2; tsinghua university, alstom transmission and distribution protection and control company;

12) dong xinzhou, guo xiaojun, ge yaozhong, he jiali; transmission line digital traveling wave protection method and relay and protection system; authorization date: march, 2002.03; zl 01 1 43449.x; tsinghua university, guodian nanjing automation co.,ltd;

13) dong xinzhou; high precision fault recorder and its transmission line combination fault location method; authorization date: 2002.9.4; patent number: zl 01 1 43448.1; tsinghua university;

14) dong xinzhou, wang bin, bo zhiqian; the relay protection method against single-phase grounding fault of line affected by distributed capacitance current; authorization date: july 11, 2007; patent number: zl 2006 1 0144275.8; tsinghua university, british areva transmission and distribution protection and control company;

15) dong xinzhou, zhang ning, bo zhiqian; digital current synthesizer; authorization date: 2007.1010; patent number: zl 2007 1 0065390.0; tsinghua university, british areva transmission and distribution protection and control company;

16) dong xinzhou, wang bin; a single terminal fault location method for line resistant to the influence of distributed capacitance current and transition resistance; authorization date: november 7, 2007; patent number: zl 2007 1 0100215.0; tsinghua university;

17) dong xinzhou, wang bin; a single-phase grounding fault relay protection method based on negative sequence reactance relay; authorization date: january 16, 2008; patent number: zl 2007 1 0100216.5; tsinghua university;

18) dong xinzhou, shi shenxing, cui tao; high resistance ground fault detection method based on transient traveling wave; authorization date: august, 2009; patent number: zl 2007 1 0303724.3; tsinghua university;

19) wang bin, dong xinzhou; the longitudinal protection method of transmission line negative sequence direction in non-full phase operation mode; authorization date: september 14, 2011; patent number: zl 2008 1 0225743.3; tsinghua university;

20) shi shenxing, dong xinzhou; on-line insulation monitoring method of power cable based on traveling wave gas measurement; authorization date: september 16, 2009; patent number: zl 2009 1 0081348.7; tsinghua university;

21) shi shenxing, dong xinzhou; power system fault warning method based on traveling wave measurement; authorization date: september 16, 2009; patent number: zl 2009 1 0081349.1; tsinghua university;

22) dong xinzhou, ding lei, wang bin, shi shenxing, liu kun; power system protection method based on substation local information; authorization date: march 30, 2011; patent number: zl 2009 1 0089563.1; tsinghua university;

23) dong xinzhou, shi shenxing, wang bin, wang shiyong; transmission line fault direction detection method; authorization date: may, 2010; patent number: zl 2009 1 0238231.5; tsinghua university;

24) dong xinzhou, wang shiyong, shi shenxing, wang bin; transmission line fault direction element; date of authorization: may 19, 2010; patent number: zl 2009 1 0238232.x; tsinghua university;

25) wang bin, dong xinzhou, shi shenxing; the utility model relates to a single-terminal fault recording and ranging device oriented to a single interval in a substation. authorization date: august 11, 2010; patent number: zl 2009 1 0244485.8; tsinghua university;

26) shi shenxing, dong xinzhou; single-phase earth ranging method and ranging device; authorization date: 12 january 2011; patent number: zl 2010 1 0244606.1; tsinghua university;

27) shi shenxing, dong xinzhou; single-phase grounding fault diagnosis methods and devices; authorization date: 12 january 2011; patent number: zl 2010 1 0244589.1; tsinghua university;

28) dong xinzhou, shi shenxing, wang jun; single-phase grounding relay protection method; authorization date: september, 2014; patent number: zl 2010 1 0565305.9; tsinghua university;

29) shi shenxing, dong xinzhou; single-phase ground fault self-healing devices and systems; authorization date: september 25, 2013; patent number: zl 2011 1 0051967.9; tsinghua university;

30) shi shenxing, dong xinzhou; single-phase ground fault self-healing method; authorization date: april 16, 2014; patent number: zl 2011 1 0051968.3; tsinghua university;

31) dong xinzhou, wang shiyong, shi shenxing; high-speed data acquisition and digital signal processing device; authorization date: 2011.8.7; patent number: zl 2011 1 0070210.4; tsinghua university;

32) wang bin, dong xinzhou; an integrated protection method to reduce the low voltage through-capacity requirement for wind farms; authorization date: october 23, 2013; zl 2011 1 0347316.4; tsinghua university;

33) shi shenxing, dong xinzhou, qi tianlai; single-phase grounding ranging method and ranging device for small current grounding system; authorization date: july 29, 2015; patent number: zl 2012 1 0007263.6; tsinghua university;

34) dong xinzhou, shi shenxing; the utility model relates to a three-phase fault handling method for distribution lines. authorization date: march 4, 2015; patent number: zl 2012 1 0137308.1; tsinghua university;

35) dong xinzhou, wang bin, cao runbin, xu fei; a fast start and phasor calculation method for integrated protection of intelligent substation; authorization date: october 22, 2014; patent number: zl 2012 1 0237750.1; tsinghua university;

36) dong xinzhou, wang jun, shi shenxing; distribution line single-phase grounding traveling wave protection device; authorization date: october 22, 2014; patent number: zl 2012 1 0253747.9; tsinghua university;

37) dong xinzhou, wang jun, shi shenxing; distribution line single-phase grounding traveling wave protection method; authorization date: oct. 9, 2014; patent number: zl 2012 1 0252585.7; tsinghua university;

38) wang bin, geng jianzhao, dong xinzhou; high resistance ground fault detection method based on zero sequence current waveform distortion concavity; authorization date: aug. 20, 2014; patent number: zl 2012 1 0425453.x; tsinghua university;

39) wang bin, geng jianzhao, dong xinzhou; high resistance ground fault detection method based on zero sequence current zero crossing discontinuity discrimination; authorization date: october 22, 2014; patent number: zl 2012 1 0425483.0; tsinghua university;

40) wang bin, geng jianzhao, dong xinzhou; a waveform distortion feature extraction method for high resistance ground fault; authorization date: april 15, 2015; patent number: zl 2013 1 0043404.4; tsinghua university;

41) wang bin, geng jianzhao, dong xinzhou; a high resistance ground fault detection method based on fault resistance nonlinear identification; authorization date: april 15, 2015; patent number: zl 2013 1 0175572.9; tsinghua university;

42) wang bin, dong xinzhou; full speed cutting protection and optimal reclosing method of collector line; authorization date: september 30, 2015; patent number: zl 2013 1 0319340.6; tsinghua university;

43) wang bin, geng jianzhao, dong xinzhou; single terminal location method for single phase ground fault of transmission line; date of authorization: february 24, 2016; patent number: zl 2013 1 0415348.2; tsinghua university;

44) shi shenxing, dong xinzhou, mei chunxiao, zang jinwei, sha jitong, cheng yaping, zhang zhigang, jiang wei, qi tianlai; fault warning system and method of wind power line; authorization date: 6.8, 2016; patent number: zl 2013 1 0656785.3; tsinghua university;

45) wang bin, ni jiang, geng jianzhao, dong xinzhou; real-time sharing method of multi-interval transient traveling wave signal in smart substation; authorization date: october 28, 2015; patent number: zl 2014 1 0114104.5; tsinghua university;

46) dong xinzhou, wang yujun, wang bin, shi shenxing, liu jian; generation method and system of black start scheme of distribution network; authorization date: may 11, 2016; patent number: zl 2014 1 0281824.0; tsinghua university;

47) dong xinzhou, wang yujun, wang bin, shi shenxing, liu jian; generation method and system of black start scheme of distribution network; date of authorization: may., 2016; patent number: zl 2014 1 0287561.4; tsinghua university;

48) wang bin, geng jianzhao, dong xinzhou; single terminal location method for transient ground fault of high voltage line based on successive action; date of authorization: february 15, 2017; patent number: zl 2014 1 0462665.4; tsinghua university;

49) dong xinzhou, cao runbin, shi shenxing, chen xin; adaptive migration characteristic setting method for station area ground distance protection iii section; date of authorization: 2017.4.5; patent number: zl 2014 1 0538903.5; tsinghua university;

50) dong xinzhou, cao runbin, shi shenxing, he shien, lu liang, yao xu; rapid adjustment method of branch coefficient of parallel line in station range protection section iii; date of authorization: april 12, 2017; patent number: zl 2014 1 0539684.2; tsinghua university;

51) dong xinzhou, cao runbin, shi shenxing, ni jiang, lei aoyu, chen xin; the utility model relates to an adaptive overload protection action method for overhead transmission lines. date of authorization: 2017.11.28; patent number: zl 2014 1 0805734.7; tsinghua university;

52) dong xinzhou, cao runbin, shi shenxing, chen xin, ni jiang, lei aoyu; prediction method of maximum temperature of overhead transmission line based on echo state network; date of authorization: december 26, 2017; patent number: zl 2014 1 0827951.6; tsinghua university;

53) dong xinzhou, bo zhiqian, chen xin, shi shenxing; method, device and power system of double substation path exploration; authorization date: 2018.11.9; patent number: zl 2015 1 0481061; tsinghua university;

54) xinzhou dong, li ren, shuxin luo, lanxi tang, zhijun tang, chaoping deng, shaozhen lin; transmission line protection methods and transmission line protection devices; authorization date: 2018.4.10; patent number: zl 2015 1 0696547.4; tsinghua university;

55) dong xinzhou, ren li, luo shuxin, tang lanxi, tang zhijun, shi jiyin, zhai bolong; method and device for judging the fault direction of transmission line; authorization date: 2018.5.11; patent number: zl 2015 1 0696546.x; tsinghua university;

56) dong xinzhou, ren li, tang lanxi, luo shuxin, tang zhijun, huang wei, lin guodong; the processing method and device of transmission line fault traveling wave; authorization date: june 15, 2018.15; patent number: zl 2015 1 0696563.3; tsinghua university;

57) jiang bo, dong xinzhou; method and device of single-phase grounding fault line selection in distribution system; authorization date: august 28, 2018; patent number: zl 2015 1 0959309.8; tsinghua university;

58) dong xinzhou, guan eryong, feng teng; dc current limiting circuit, dc current limiting device and dc transmission system; authorization date: 2018.11.6; patent number: zl 2016 1 0638360; tsinghua university;

59) wang bin, yang lin, lu yuanyuan, dong xinzhou, liu hui, chen can, wu linlin; a flexible simulation method for low voltage traverse output characteristics of wind turbine; authorization date: 2018.11.23; patent number: zl 2016 1 0936477; tsinghua university;

60) dong xinzhou, jing liuming, guan eryong, wang bin, wang hao, zhou jianhua, he zejia; the invention relates to a delay discriminating method and system for fault direction of a bus circuit. authorization date: 2019.11.22; patent number: zl 2018 1 0071308.3; tsinghua university;

61) dong xinzhou, jia qi, shi shenxing; single-phase grounded traveling wave protection methods and devices and computer equipment; authorization date: 2019.9.20; patent number: zl 2018 1 0066880.0; tsinghua university;

62) dong xinzhou, lei aoyu; method, device, equipment and medium for travelling wave differential protection of series capacitor compensation line; authorization date: 2018.10.18; patent number: zl 2018 1 0034069.4; tsinghua university;

63) dong xinzhou, lei aoyu; method, device, equipment and medium for traveling wave differential protection of shunt reactance compensation line; authorization date: 2019.8.9; patent number: zl 2018 1 0034039.3; tsinghua university;

64) dong xinzhou, lei aoyu, wang bin; fault starting method, system and high voltage transmission line relay protection system; authorization date: 2019.6.18; patent number: zl 2017 1 0659369.7; tsinghua university;

65) wang bin, lu zhengyuan, dong xinzhou; the invention relates to an adaptive reclosing judgment method for single-phase ground fault of transmission lines. authorization date: 2019.5.7; patent number: zl 2017 1 0123414.7; tsinghua university;

66) jianhua li, liangbin dong, xinzhou dong, shenxing shi, a wide-band power amplifier for high current output; date of authorization: july 14, 2010; patent number: zl 2009 1 0243134.5; beijing hengtian beidou, beijing hengtian beidou technology co., ltd,tsinghua university;

67) xinzhou dong, lanxi tang, bin wang, shenxing shi, zhiyuan he, hui pang, ming kong, yanan wu, xiangyu pei; fast identification method and device of lightning interference for flexible hvdc transmission lines; authorization date: 2019.7.12; patent number: zl 2016 1 1004814.8; tsinghua university;

68) wang bin, lu zhengyuan, dong xinzhou, liu hui, chen can, wu linlin; single terminal location method for instantaneous single-phase grounding fault of wind farm grid-connected transmission line; authorization date: 2019.2.22; patent number: zl 2016 1 0936476.5; tsinghua university;

69) dong xinzhou, bo zhiqian, chen xin, shi shenxing, liu ruitong, fan wei, wang lin, zhao yingke; sampling synchronization method and sampling synchronization device based on protection intelligent center; authorization date: 2019.1.4; patent number: zl 2016 1 0382429.0; tsinghua university;

70) dong xinzhou, bo zhiqian, chen xin, shi shenxing; path exploration method, device and power system based on ant colony algorithm; authorization date: 2019.2.22; patent number: zl 2015 1 0463911.2; tsinghua university;

71) dong xinzhou, shi shenxing, cui tao; high resistance ground fault detection method based on transient traveling wave; authorization date: august, 2010; patent number: zl 2007 1 0303724.3; tsinghua university;

72) dong xinzhou, li xuyang, bo zhiqian, r. chatfield, a. klimek; methods and systems for on-line ferromagnetic resonance detection; authorization date: january, 2015; patent number: zl 2010 8 0067201.3; tsinghua university;

73) liu jian, sheng wanxing, xu shiming, dong xinzhou, chen xingying, wang hongan; fault-tolerant method of distribution network fault location; authorization date: november 27, 2013; patent number: zl 2011 1 0456588.8; shaanxi institute of electrical science, xibei electric power testing research institute,china electric power research institute,state grid electric power research institute, tsinghua university, etc.;

74) shi shenxing, dong xinzhou, qi tianlai; single-phase grounding ranging method and ranging device for small current grounding system; authorization date: july 29, 2015; patent number: zl 2012 1 0007263.6; tsinghua university;

75) shi shenxing, dong xinzhou, shen dong, wu jiahua; the utility model relates to a fault self-healing method for a neutral non-effective grounding system. date of authorization: june 29, 2016; patent number: zl 2013 1 0164590.7; tsinghua university;

76) shi shenxing, shang yuwei, dong xinzhou; distribution network operation risk assessment method and evaluation system including distributed power supply; authorization date: may 10, 2017; patent number: zl 2014 1 0281567.0; tsinghua university;

77) shi shenxing, shang yuwei, dong xinzhou, liu jian; operation risk evaluation method and evaluation system based on fuzzy mathematics; authorization date: july 18, 2017; patent number: zl 2014 1 0341631.x; tsinghua university;

78) dong xinzhou, guan eryong, wang hao, jing liuming; control method and system of current limiting device in flexible dc power grid; authorization date: 2021.1.19; patent number: zl 2018 1 0082011.7; tsinghua university;

79) wang bin, li zhizhong, xie min, wang tongwen, yu bin, dong xinzhou, shao kuai et al. the invention relates to a real-time estimation method of commutative vertical angle for hvdc transmission. authorization date: 2019.3.19; patent number: zl 2018 1 1582645.5; tsinghua university, state grid anhui electric power company;

80) dong xinzhou, jing liuming, guan eryong, wang bin, wang hao, zhou jianhua, he zejia; the invention relates to a delay discriminating method and system for fault direction of a bus circuit. authorization date: 2019.11.22; patent number: zl 2018 1 0071308.3; tsinghua university;

81) dong xinzhou, lei aoyu; method, device, equipment and medium for travelling wave differential protection of series capacitor compensation line; authorization date: 2018.10.18; patent number: zl 2018 1 0034069.4; tsinghua university;

82) shi shenxing, zhao yiming, dong xinzhou, zhang guangmei, zhu hao, wen zhongjin, ji ji, deng pu, zhang mengchun; the utility model relates to a single-ended traveling wave ranging method for distribution lines. authorization date: 2021.1.29; patent number: zl 2019 1 0780450.x; tsinghua university, guizhou power grid co., ltd. liupan water power supply bureau;

83) zhu hao, shi shenxing, zhao yixiang, dong xinzhou, et al.; a self-healing method for single-phase grounding fault of a small current grounding system; authorization date: 2020.5.12; patent number: zl 2019 1 1333181.9; tsinghua university;

84) wang bin, li zhizhong, xie min, dong xinzhou, wang tongwen, wang haigang, yu bin; a fast method for obtaining expected transient response of hvdc transmission systems; authorization date: 2021.9.7; patent number: zl 2019 1 1323370.8; tsinghua university, state grid anhui electric power company;

85) shi shenxing, qian qilong, dong xinzhou; distribution line single-phase grounding fault selection method and computer readable storage media; authorization date: 2021.5.4; patent number: zl 2019 1 1160418.8; tsinghua university;

86) shi shenxing, zhao yixiang, dong xinzhou; a fault location system for a transmission line; authorization date: 2021.1.29; patent number: zl 2019 1 0779752.5; tsinghua university;

87) shi shenxing, zhao yixiang, dong xinzhou; a fault location method for a transmission line; authorization date: 2021.1.29; patent number: zl 2019 1 0780586.0; tsinghua university;

88) dong xinzhou, cai jing; the utility model relates to a single-ended traveling wave ranging device for a distribution line. authorization date: 2019.1.29; patent number: zl 2019 1 0780881.6; tsinghua university;

89) dong xinzhou, cai jing; troubleshooting methods, troubleshooting devices and dc transmission systems; authorization date: 2022.4.5; patent number: zl 2020 1 0552894.0; tsinghua university;

90) dong xinzhou, wang haonan, jin boliang; power flow analysis device and power flow analysis method of ac/dc hybrid system; authorization date: 2021.10.8; patent number: zl 2020 1 0307640.2; tsinghua university;

91) dong xinzhou, cai jing; troubleshooting methods, troubleshooting devices and dc transmission systems; authorization date: 2022.4.5; patent number: zl 2020 1 0552918.2; tsinghua university;

92) zhang guangmei, shi shenxing, dong xinzhou et al.; an adaptive protection device suitable for distribution lines; authorization date: 2022.5.6; patent number: zl 2020 1 1258919.2; tsinghua university;

93) wang bin, cui xin, dong xinzhou; the invention relates to an intermittent arc grounding fault detection method based on voltam-like characteristics. authorization date: 2020.11.17; patent number: zl 2020 1 0512232.0; tsinghua university;

94) dong xinzhou, cai jing; troubleshooting methods, devices and commutator hvdc system; authorization date: 2022.4.5; patent number: zl 2020 1 0553387.9; tsinghua university;

95) zhang guangmei, dong xinzhou, shi shenxing, qian qilong, zhu hao, wang lei, et al. the invention relates to an adaptive protection method for distribution lines in a neutral system with non-effective grounding. authorization date: 2021.3.2; patent number: zl 2020 1 1260913.9; tsinghua university;

96) wang bin, yu bin, ren xuan, xie min, dong xinzhou, et al.; the invention relates to a method and device for judging the high resistance fault direction of a transmission line. authorization date: 2022.4.8; patent number zl 2021 1 0044618.8; tsinghua university, state grid anhui electric power company.

5.1 professional society membership

ieee fellow

iet fellow

aaia fellow

fellow of the chinese society for electrical engineering

member of the cigre b5

member of the cigre china national technical committee

chair of the cigre b5-55 traveling wave protection working group

member of the cired state technological commission of china

chairman of ieee pes technical committee on power system protection and control in china

chairman of iec tc95-ahg4 traveling wave protection and fault location strategy working group

council member of china electrotechnical society

vice chairman of protection and control committee of china electrotechnical society

vice chairman of power system relay protection committee, china society of hydropower engineering

member of relay protection expert group of state grid corporation of china

member of the national short-circuit current calculation standard committee

member of national standard committee for measuring relays and relay protection devices

expert of shaanxi hundred people plan

distinguished professor of shaanxi university of technology

visiting professor, university of strathclyde, uk

adjunct professor, taipei university of science and technology

5.2 editorship in international journals

member of the advisory board of 《pca world》

member of the editorial board of《csee journal of power and energy systems》

member of the editorial board of《journal of modern power systems and clean energy》

deputy chief editor of the《protection and control of modern power systems》

5.3 editorship for chinese journals

member of the editorial board of electric power automation equipment

member of the editorial board of automation of electric power systems

member of the editorial board of journal of electric power science and technology

member of the editorial board of electric power engineering technology

member of the editorial board of power system technology

member of the editorial board of journal of shaanxi university of technology

5.4 position of international conference

4th international conference on advanced power system automation and protection, chairman, beijing, china, 2011

8th international conference on advanced power system automation and protection, co-chairman, xi`an, china, 2019

2004-2023, annual china-korea relay protection forum, chairman or co-chairman, alternately

3rd international conference on electronics technology, advisory chairman, chengdu, china, 2020

4th international conference on electronics technology, advisory chairman, chengdu, china, 2021

5th international conference on electronics technology, advisory chairman, chengdu, china, 2022

6th international conference on electronics technology, advisory chairman, chengdu, china, 2023

7th development on power system protection, iee, member of the organizing committee, amsterdam, netherlands, 2001

10th development on power system protection, iee, member of the organizing committee, manchester, england, 2010

14th development on power system protection, iee, member of the organizing committee, belfast, england, 2017

15th development on power system protection, iee, member of the organizing committee, liverpool, england, 2020

6th international conference on power system technology, powercon, advisory board member, chongqing, china, 2008

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