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清华大学电机系

清华大学电机系本科生

清华大学电机系研究生

清华大学电机系校友会

清华大学能源互联网创新研究院

faculties

current location: home > faculties > guo qinglai

guo qinglai

professor, ieee senior member, iet fellow

research direction

research interests: energy management system, voltage stability and control, renewable energy integration, cyber-physical system, electric vehicles

room iii-120, west main building, department of electrical engineering, tsinghua university, beijing, 100084, p. r. china

guoqinglai@tsinghua.edu.cn

86-10-62783086-807

  • biography
  • teaching
  • research project
  • publications
  • social service

biography

qinglai guo has been appointed professor of electrical engineering department of tsinghua university since 2020. he holds bachelor's degrees of electrical power engineering in 2000, and a ph.d in electrical power engineering from tsinghua university in 2005. in 2020, he was awarded the special prize of china science & technology award for young scholars (only 10 winners every two years in china). in 2015, he was awarded the national science fund for excellent young scholars. in 2016, he was awarded the mao yisheng beijing youth technology award. in 2017, he was awarded the yangtze river young scholar. in 2018, he was awarded the beijing science fund for distinguished young scholars. his research interests include energy management system, voltage stability and control, cyber-physical system, renewable energy integration, and electric vehicles.

he is now an iet fellow, ieee senior member and a cigre member, and is involved in 5 workgroups of these two organizations. now he is tcpc of energy internet coordinating committee of ieee pes, the co-chair of ieee pes work group on “energy internet”, ieee pes task force on “cyber-physical interdependence for power system operation and control”, and ieee pes task force on “voltage control for smart grid”. he is an editorial member of “ieee transactions on power systems”, “renewable & sustainable energy reviews”, “ieee transactions on smart grid”, “iet renewable power generation”, “iet cyber-physical systems: theory & applications”, “journal of modern power systems and clean energy”, and “protection and control of modern power systems”. he is also the member of 4 committees in china, asia and europe, and has chaired 3 sessions in international conferences. he has been invited to give 15 presentations in china, the usa, the uk, canada and demark, for conferences, universities, research institutions as well as industrial companies. he was involved in the preparation of 3 industrial specifications on voltage control and wind power integration in china.

as a technical leader, he has devoted himself to researching and developing automatic voltage control (avc) systems, which to date have been implemented to 6 regional control centers (6/7 of china’s total), 22 provincial control centers (2/3 of china’s total), 6 large wind/pv bases (2/3 of china’s total). these techniques have also been adopted by pjm in the usa (the largest regional grid in north america), tnb in malaysia and bc hydro in canada.

to date he has published more than 200 peer-reviewed papers, 103 of which are sci indexed papers (including 53 ieee journal papers). one paper he supervised was awarded as 2016 ieee pes student prize paper. two of his papers were identified by renewable energy global innovations as a key scientific article contributing to the excellence in energy research. one of his papers was identified as esi 1%. one of his papers won the iet premium awards 2019. one of his papers was identified by f5000 articles of china. his two papers were selected as best conference papers of ieee pes gm. as pi, he has led more than 20 projects, with a total funding of 32.47 million rmb (approximately us$ 5 million). he has been authorized 6 us patents of invention and more than 20 chinese patents of invention, one of which has been rewarded a silver medal on the international exhibition of inventions of geneva and the excellent patent prize of china. to date he has been rewarded 2 national awards and 10 provincial awards for his research contribution. in 2016 and 2007, two of his researches were awarded respectively as the top ten science & technology progresses of chinese colleges.

educational background

2000/09-2005/07, ph.d, electrical engineering, tsinghua university, china

1996/09-2000/07, bachelor of eng., electrical engineering, tsinghua university, china

work experience

dec, 2020 – present, professor, department of electrical engineering, tsinghua university, beijing, china

dec, 2009 – dec, 2020, associate professor, department of electrical engineering, tsinghua university, beijing, china

jul, 2008 – dec, 2009, lecturer, department of electrical engineering, tsinghua university, beijing, china

jul, 2006 – jul, 2008, post-doctoral research fellow, department of electrical engineering, tsinghua university, beijing, china

honors and awards

(1)research award

national level

the first class prize, national award for technological progress in 2018

the second class prize, national award for technological invention in 2008

provincial level

the first class prize, ministry of education award for technological invention, 2016

the first class prize, beijing science & technology progress in 2004

top ten science & technology progress of chinese colleges in 2016 and 2007

the first class prize, qinghai science & technology progress in 2019

the first class prize, chinese electric power science & technology progress in 2019

the first class prize, china electro technical society in 2016

the second class prize, shanxi science & technology progress in 2019

the second class prize, beijing innovation and patent in 2009

the second class prize, jiangsu science & technology progress in 2011

the third class prize, hebei science & technology progress in 2015

the third class prize, beijing science & technology progress in 2008

the second class prize, national energy science & technology progress in 2014

the third class prize, chinese electric power science & technology progress in 2009, 2010, and 2015

the third class prize, national energy science & technology progress in 2010

excellent patent prize of china, 2016

personal awards

the special prize of china science & technology award for young scholars (only 10 winners every two years in china), 2020

mao yisheng beijing youth technology award, 2016

beijing distinguished young scholar

best reviewer, ieee transactions on smart grid, 2016

(2) teaching award

outstanding young teacher award at tsinghua university, 2012 (the highest teaching prize for young professors at tsinghua university, which rewards 10 under-age-40 faculty members that are excellent on teaching every year)

the first class prize in the tsinghua university’s teaching competition, 2011

outstanding head teacher for undergraduate students from tsinghua university, 2010

the second class prize for teaching achievement from the beijing government, 2013

the special class prize (highest prize) in the tsinghua university’s teaching material competition, 2012

teaching

(1)undergraduates courses

electronics engineering

(2)postgraduates courses

advanced electric power network analysis

modern energy management system

graduate advising

(1)graduated students

m.s.(2): yao wang, yang zhang

co supervised ph.d (3): bin wang, mingye zhang, xuran wang

(2)current graduate students

ph.d. candidate (1): shujun xin

m.s. candidate (3): huaichang ge, fan wu, fan yang

co supervised ph.d candidates (5): zhengshuo li, fengda xu, zhaoguang pan, tao niu, tianyu yang

(3)awards of the students

shujun xin, national scholarship, ministry of education, 2013. supervisor: qinglai guo

(1)research interests

energy management system

voltage stability and control

cyber-physical system

renewable energy integration

electric vehicles

(2)selected academic funds

2017-2021, steady and dynamics characteristics of cyber-physical systems considering market influences. national key r&d program (pi)

2016-2018, automatic voltage control of power systems. national science fund for excellent young scholars (pi)

2013-2016, mechanisms and preventive control technologies for voltage induced multi wind farms cascading trip. national natural science foundation of china (pi)

2009-2011, research on master-slave based coordinated control model and methods for power systems. national natural science foundation of china (pi)

2012-2014, power system operation and control technologies to accommodate large-scale wind power energies. ministry of science and technology, china (pi for tsinghua sub-project)

2013-2015, multi energy coordinated operation including large pv stations. ministry of science and technology, china (pi for tsinghua sub-project)

2013-2017, aggregated model and energy management of electric vehicles. ministry of science and technology, china (pi for tsinghua sub-project)

2012-2014, v2g key technologies. ministry of science and technology, china (pi for tsinghua sub-project)

2012-2015, power system operation and control with electric vehicles integration. ministry of science and technology, china (pi for tsinghua sub-project)

2012-2015, micro-grid operation with renewable energies integration. ministry of science and technology, china (pi for tsinghua sub-project)

2006-2008, three-level coordinated reactive power and voltage control in large regional, provincial and district power grids. ministry of science and technology, china (co-pi)

2012-2014, coordinated energy management combining smart grid and intelligent transportation. tsinghua university (pi)

(3)selected international collaboration projects

2009-2010, system-wide optimal voltage control. pjm smart transmission grid (co-pi)

2012-2014, coordinated voltage control for malaysia power grid. tenaga nasional berhad (national power grid of malaysia) (co-pi)

2014-2015, study of avc for bc hydro system. bc hydro (co-pi)

(4)selected industry projects

2012-2013, key technologies and demonstrations of grid friendly wind farms. state grid corporation of china (pi)

2013-2015, power system operation and control with electric vehicle integration. china southern grid corporation (pi)

2012-2015, micro-grid operation with renewable energies integration. china power investment corporation (pi)

2012-2014, power system operation and control technologies to accommodate large-scale wind power energies. state grid corporation of china (pi)

2013-2014, coordinated var control of smart substation. state grid corporation of china (pi)

2012-2014, specifications for generation control and voltage control of wind powers. state grid corporation of china (pi)

2009-2010, voltage control for uhv grids. state grid corporation of china (pi)

dr. qinglai guo is the author of 1 books. he has published more than 200 papers, of which 102 are indexed by sci and 95 are indexed by ei. up to now, his papers have had over 4100 citations.

(1)books

q.guo, and h. sun, “voltage control for wind power integration areas”, book chapter, in book “integration of large scale renewable energy into bulk power systems: from planning to operation”, springer, 2017, isbn: 978-3-319-55581-2

t. papazoglou, d. bekaert, d. becker, s. gasperic, q. guo, h. sun, k. madajewski, r. mihalic, r. pestana, g. strada, "voltage and var support in system operation," cigre report by wg c2.13, isbn: 978-2-85873-196-1

(2)selected international journal papers since 2010

1)q. guo, s. xin, h. sun, z. li and b. zhang, "rapid-charging navigation of electric vehicles based on real-time power systems and traffic data," ieee transactions on smart grid, vol. 5, no. 4, pp. 1969-1979, 2014

2)q. guo, h. sun, m. zhang, j. tong, b. zhang and b. wang, "optimal voltage control of pjm smart transmission grid: study, implementation, and evaluation," ieee transactions on smart grid, vol. 4, no. 3, pp. 1665-1674, 2013.

3)q. guo, h. sun, b. wang, b. zhang, w. wu and l. tang, "hierarchical automatic voltage control for integration of large-scale wind power: design and implementation," electric power systems research, vol. 120, pp. 234-241, 2015 (renewable energy global innovations key wind energy article contributing to the excellence in energy research: https://reginnovations.org/wind-energy/hierarchical-automatic-voltage-control-for-integration-of-large-scale-wind-power-design-and-implementation/)

4)q. guo, s. xin, l. xu, and h. sun, “ems communication routings’ optimization to enhance power system security considering cyber-physical interdependence,” iet cyber-physical systems: theory & applications, 2018, vol. 3, no. 1, pp 44-53 (iet premium cyber physical systems: theory & applications premium award 2019)

5)q. guo, y. wang, h. sun, z. li, s. xin and b. zhang, "factor analysis of the aggregated electric vehicle load based on data mining," energies, vol. 5, no. 6, pp. 2053-2070, 2012

6)h. sun, q. guo, b. zhang, w. wu and b. wang, "an adaptive zone-division-based automatic voltage control system with applications in china," ieee transactions on power systems, vol. 28, no. 2, pp. 1816-1828, 2013

7)z. li, q. guo, h. sun, and j. wang, "storage-like devices in load leveling: complementarity constraints and a new and exact relaxation method," applied energy, vol. 151, pp.13-22, 2015 (renewable energy global innovations key scientific article contributing to the excellence in energy research: https://reginnovations.org/key-energy-storage-system/storage-like-devices-in-load-leveling-complementarity-constraints-new-exact-relaxation-method/)

8)z. li, q. guo, h. sun, y. wang and s. xin, "emission-concerned wind-ev coordination on the transmission grid side with network constraints: concept and case study," ieee transactions on smart grid, vol. 4, no. 3, pp. 1692-1704, 2013

9)z. li, q. guo, h. sun, s. xin and j. wang, "a new real-time smart-charging method considering expected electric vehicle fleet connections," ieee transactions on power systems, vol. 29, no. 6: 3114-3115, 2014

10)s. xin, q. guo, j. wang, c. chen, h. sun and b. zhang, “information masking theory for data protection in future cloud-based energy management,” ieee transactions on smart grid, vol. 9, no. 6, pp. 5664-5676, 2018

11)s. xin, q. guo, h. sun, b. zhang, j. wang and c. chen, “cyber-physical modeling and cyber contingency assessment of hierarchical control systems,” ieee transactions on smart grid, vol. 6, no. 5, pp. 2375-2385, 2015

12)s. xin, q. guo, h. sun, c. chen, j. wang and b. zhang, “information-energy flow computation and cyber-physical sensitivity analysis for power systems,” ieee journal on emerging and selected topics in circuits and systems, vol. 7, no. 2, pp. 329-341, 2017

13)h. sun, q. guo, b. zhang, y. guo, z. li and j. wang, “master-slave-splitting based distributed global power flow method for integrated transmission and distribution analysis,” ieee transactions on smart grid, vol. 6, no.3, pp.1484-1492, 2015.

14)h. sun, q. guo, b. zhang, w. wu, b. wang, x. shen, and j. wang, “integrated energy management system: concept, design, and demonstration in china,” ieee electrification magazine, 2018, vol. 36, no. 2, pp. 42-50.

15)h. sun, q. guo, j. qi, et. al, “review of challenges and research opportunities for voltage control in smart grids,” ieee transactions on power systems, vol.34, no.4, pp. 2790-2801, 2019

16)z. li, q. guo, h. sun, and j. wang, “sufficient conditions for exact relaxation of complementarity constraints for storage-concerned economic dispatch,” ieee transactions on power systems, vol. 31, no. 2, pp. 1653-1654, 2016.

17)z. li, q. guo, h. sun, and j. wang, "coordinated economic dispatch of coupled transmission and distribution systems using heterogeneous decomposition", ieee transactions power systems, vol.31, no.6, pp. 4817-4830, 2016

18)z. li, q. guo, h. sun, j. wang, "a new lmp-sensitivity-based heterogeneous decomposition for transmission and distribution coordinated economic dispatch", ieee transactions on smart grid, 2018, vol. 9, no.2, pp.931-941.

19)z. li, q. guo, h. sun, and j. wang, "coordinated transmission and distribution ac optimal power flow", ieee transactions on smart grid, 2018, vol.9, no.2, pp.1228-1240.

20)z.li, q. guo, h. sun and j.wang, "impact of coupled transmission-distribution on static voltage stability assessment", ieee transactions on power systems, vol. 32, no. 4, pp. 3311-3312, 2017

21)z. pan, q. guo, and h. sun, "interactions of district electricity and heating systems considering time-scale characteristics based on quasi-steady multi-energy flow," applied energy, vol. 167, pp. 230-243, 2015.

22)z. pan, q. guo, and h. sun, "feasible region method based integrated heat and electricity dispatch considering building thermal inertia," applied energy, vol. 192, pp. 395-407, 2017 (esi 1%)

23)t. niu, q. guo, h. sun, q. wu, b. zhang and t. ding, “autonomous voltage security regions to prevent cascading trip faults in wind turbine generators,” ieee transactions on sustainable energy, vol.7, no. 3, pp. 1306-1316, 2016

24)t. niu, q. guo, h. sun, b. wang, and b. zhang, “voltage security regions considering wind power curtailment to prevent cascading trip faults in wind power integration areas,” iet renewable power generation, vol. 11, no. 1, pp. 54-62, 2017

25)t. niu, q. guo, h. jin, h. sun, b. zhang, and h. liu, “dynamic reactive power optimal allocation to decrease wind power curtailment in a large-scale wind power integration area,” iet renewable power generation, 2017, vol. 11, no. 13, pp. 1667-1678.

26)t.niu, q.guo, h.sun, h.liu, b.zhang and y.du, "dynamic reactive power reserve optimization in wind power integration areas," iet generation, transmission & distribution, 2018, vol. 12, no. 2, pp. 507-517.

27)t. niu, q. guo, h. sun, b. wang and b. zhang, “robust voltage control strategy for hybrid ac/dc sending-side systems to prevent cascading trip failures”, ieee transactions on sustainable energy, vol.10, no.3, pp. 1319-1329, 2019.

28)t. huang, q. guo, h. sun. “a distributed computing platform supporting power system security knowledge discovery based on online simulation,” ieee transactions on smart grid, vol. 8, no. 3, pp. 1513-1524, 2017

29)t. huang, q. guo, h. sun, c. tan, and t. hu, “a deep learning approach for power system knowledge discovery based on multitask learning,” iet generation transmission & distribution, vol. 13, no. 5, pp. 733-744, 2019.

30)t. huang, q. guo, h. sun, c. tan, and t. hu, “a deep spatial-temporal data-driven approach considering microclimates for power system security assessment,” applied energy, vol. 237, pp. 36-48, 2019.

31)h. ge, q. guo, h. sun, b. wang, b. zhang, j. liu, y. yang, and f. qian, "an improved real-time short-term voltage stability monitoring method based on phase rectification", ieee transactions on power systems, 2018, vol. 33, no. 1, pp.1068-1070.

32)h. ge, q. guo, h. sun, b. wang, and b. zhang, “a multivariate statistical analysis based power grid partitioning method”, iet generation, transmission & distribution, vol. 10, no. 4, pp. 1023-1031, 2016.

33)h. ge, q. guo, h. sun, and w. zhao, "a model and data hybrid-driven short-term voltage stability real-time monitoring method", international journal of electrical power and energy systems, doi: 10.1016/j.ijepes.2019.06.031

34)m. jiang, q. guo, h. sun and h. ge, "short-term voltage stability-constrained unit commitment for receiving-end grid with multi-infeed hvdcs," ieee transactions on power systems, accepted.

35)m. jiang, q. guo, h. sun, "day-ahead voltage scheduling method based on a two-stage robust optimisation for vsc-hvdc connected wind farms," iet renewable power generation, 2018, vol. 12, no. 13, pp. 1470-1477.

36)m. jiang, q. guo, h. sun and h. ge, “decoupled piecewise linear power flow and its application to under voltage load shedding,” csee journal of power and energy systems, accepted, 2020.

37)l. xu, q. guo, t. yang, and h. sun. "robust routing optimization for smart grids considering cyber-physical interdependence", ieee transactions on smart grid, vol. 10, no. 5, pp. 5620 - 5629, 2019.

38)n. tian, q. guo, h. sun, "privacy preservation method for miqp-based energy management problem: a cloud-edge framework," in electric power systems research, accepted

39)w. zhao, q. guo, h. sun, h. ge and h. li, "a practical short-term voltage stability index based on voltage curves: definition, verification and case studies", iet generation, transmission & distribution, 2018, 12(19): 4292-4300.

40)z. qiao, q. guo, h. sun, and z. pan. "an interval gas flow analysis in natural gas and electricity coupled networks considering the uncertainty of wind power," applied energy, vol. 201, pp. 343-353, 2017

41)z. qiao, q. guo, h. sun, t. sheng, “multi-time period optimized configuration and scheduling of gas storage in gas-fired power plants,” applied energy, vol.226, pp. 924-934, 2018.

42)b. chen, q. guo, y. chen, h. sun, "an economic dispatch model for combined heat and power systems considering the characteristics of heat recovery steam generators," international journal of electrical power and energy systems, doi:10.1016/j.ijepes.2019.105775.

43)x. fu, q. guo, h. sun, x. zhang, and l. wang, “estimation of the failure probability of an integrated energy system based on the first order reliability method,” energy, vol. 134, pp. 1068-1078, 2017

44)x. fu, q. guo, h. sun, z. pan, w. xiong, and l. wang. “typical scenario set generation algorithm for an integrated energy system based on the wasserstein distance metric”, energy, vol. 135, pp. 153-170, 2017

45)x. fu, q. guo, and h. sun. “statistical machine learning model for stochastic optimal planning of distribution networks considering a dynamic correlation and dimension reduction”, ieee transactions on smart grid, accepted

46)y. chen, q. guo, h. sun and z. pan, " integrated heat and electricity dispatch for district heating networks with constant mass flow: a generalized phasor method", ieee transactions on power systems, to be published.

47)y. chen, q. guo, h. sun, z. li, w. wu and z. li, "a distributionally robust optimization model for unit commitment based on kullback–leibler divergence", ieee transactions on power systems, 2018, vol. 33, no. 5, pp. 5147-5160.

48)y. chen, q. guo, and h. sun, "decentralized unit commitment in integrated heat and electricity systems using sdm-gs-alm", ieee trans. power syst., vol. 34, no. 3, pp. 2322-2333, 2019

49)y. chen, q. guo, h. sun, z. li, z. pan and w. wu, "a water mass method and its application to integrated heat and electricity dispatch considering thermal inertias", energy, vol 181, pp.840-852, 2019

50)y. chen, q. guo, h. sun, z. pan and b. chen, " generalized phasor modeling of dynamic gas flow for integrated electricity-gas dispatch ", applied energy, to be published.

51)t. hu, q. guo, z. li, x. shen, h. sun, “distribution-free probability forecast through deep neural networks,” ieee transactions on neural networks and learning systems, vol. 31, no.2, pp. 612-625, 2020

52)t. hu, q. guo, x. shen, h. sun, r. wu and h. xi, "utilizing unlabeled data to detect electricity fraud in ami: a semi-supervised deep learning approach," ieee transactions on neural networks and learning systems, vol. 30, no. 11, pp. 3287-3299, 2019

53)t. hu, q. guo, h. sun, t. huang, and j. lan" non-technical losses detection through coordinated biwgan and svdd," ieee transactions on neural networks and learning systems, accepted

54)y. xu, q. guo, h. sun, and z. fei, “distributed discrete robust secondary cooperative control for islanded microgrids,” ieee transactions on smart grid, vol.10, no. 4, pp. 3620-3629, 2019.

55)f. xu, q. guo, h. sun, b. zhang, l. jia, “a two-level hierarchical discrete device control method for power networks with integrated wind farms”, journal of modern power systems and clean energy, vol 7, no. 1, pp. 88-98, 2019.

56)y. zhou, q. guo, h. sun, z. yu, j. wu, l. hao, “a novel data-driven approach for transient stability prediction of power systems considering the operational variability,” international journal of electrical power & energy systems, vol. 107, pp. 379-294, 2019

57)y. sheng, q. guo, t. yang, z. zhou, h. sun, "a potential security threat and its solution in coupled urban power-traffic networks with high penetration of electric vehicles," in csee journal of power and energy systems, accepted.

58)t. yang, q. guo, l. xu, and h. sun, " dynamic pricing for integrated energy-traffic systems from a cyber-physical-human perspective," renewable and sustainable energy reviews, accepted

59)t. yang, x. xu, q. guo, l. zhang, and h. sun, "ev charging behaviour analysis and modelling based on mobile crowdsensing data," iet generation, transmission & distribution, vol. 11, no. 7, pp. 1683-1691, 2017

60)y. zhao, y. guo, q. guo, h. zhang, and h. sun, “deployment of the electric vehicle charging station considering existing competitors,” ieee transactions on smart grid, accepted

61)z. zhou, x. zhang, q. guo, and h. sun, “analyzing power and dynamic traffic flows in coupled power and transportation networks,” renewable and sustainable energy reviews, accepted

62)z. zhou, x. zhang, q. guo, and h. sun, “a decomposition approach for the interdependency analysis of integrated power and transportation systems,” iet smart grid, accepted

63)z. zhou, x. zhang, q. guo, and h. sun, “an integrated pricing framework for optimal power and semi-dynamic traffic flow problem,” iet renewable power generation, accepted

64)n. tian, t. ding, y. yang, q. guo, h. sun, and f. blaabjerg, “confidentiality preservation in user-side integrated energy system management for cloud computing,” applied energy, vol.231, pp. 1230-1245, 2018.

65)h. zhao, q. wu, q. guo, h. sun, and y. xue, “distributed model predictive control of a wind farm for optimal active power control part i: clustering based wind turbine model linearization,” ieee transactions on transactions on sustainable energy, vol. 6, no. 3, pp. 831-839, 2015.

66)h. zhao, q. wu, q. guo, h. sun, and y. xue, “distributed model predictive control of a wind farm for optimal active power control part ii: implementation with clustering based piece-wise affine wind turbine model,” ieee transactions on transactions on sustainable energy, vol. 6, no. 3, pp. 840-849, 2015.

67)h. sun, r. chen, q. guo, j. wang, y. zhang, w. wu, and b. zhang, “a two-level distributed approach to power network modeling,” ieee transactions on power delivery, vol. 30, no.3, pp 1496-1504, 2015.

68)r. chen, h. sun, q. guo, h. jin, w. wu and b. zhang, "profit-seeking energy-intensive enterprises participating in power system scheduling: model and mechanism," applied energy, vol. 158, pp. 263-274, 2015.

69)r. chen, h. sun, q. guo, z. li, and b. zhang, “a generation-interval-based mechanism for managing the power generation uncertainties of variable generation,” ieee transactions on transactions on sustainable energy, vol. 7, no. 3, pp. 1060-1070, 2016

70)r. chen, h. sun, q. guo, z. li, t. deng, w. wu, and b. zhang, "reducing generation uncertainty by integrating csp with wind power: an adaptive robust optimization-based analysis," ieee transactions on sustainable energy, vol. 6, no. 2, pp. 583-594, 2015.

71)h. zhao, q. wu, q. guo, h. sun, s. huang, and y. xue, “coordinated voltage control of a wind farm based on model predictive control”, ieee transactions on sustainable energy, vol. 7, no.4, pp. 1440-1451, 2016

72)x. fu, h. sun, q. guo, z. pan, w. xiong, and l. wang, “uncertainty analysis of an integrated energy system based on information theory,” energy, vol.122, pp. 649-662, 2017

73)x. fu, h. sun, q. guo, z. pan, x. zhang and s. zeng, “probabilistic power flow analysis considering the dependence between power and heat,” applied energy, vol. 191, pp. 582-592, 2017

74)z. li, h. sun, q. guo, j. wang and g. liu, " generalized master-slave-splitting method and application to transmission-distribution coordinated energy management," ieee transactions on power systems, vol. 34, no. 6, pp. 5169-5183, 2019.

75)z. li, j. wang, h. sun, and q. guo, “transmission contingency analysis based on integrated transmission and distribution power flow in smart grid,” ieee transactions on power systems, vol. 30, no. 6, pp. 3356-3367, 2015.

76)z. li, j. wang, h. sun, and q. guo, “transmission contingency screening considering impacts of distribution grids,” ieee transactions on power systems, vol. 31, no. 2, pp. 1659-1660, 2016.

77)z. li, w. wu, b. zhang, h. sun and q. guo, "dynamic economic dispatch using lagrangian relaxation with multiplier updates based on a quasi-newton method," ieee transactions on power systems, vol. 28, no. 4, pp. 4216-4527, 2013

78)z. li, j. wang, h. sun, f. qiu, q. guo, "robust estimation of reactive power for an active distribution system," in ieee transactions on power systems, vol. 34, no. 5, pp. 3395-3407, sept. 2019.

79)x. shi, y. xu,q. guo, h. sun and w. gu, "a distributed ev navigation strategy considering the interaction between power system and traffic network", ieee transactions on smart grid, to be published. (doi: 10.1109/tsg.2020.2965568)

80)x. zhao, x. shen, q. guo, h. sun, and s. oren, “a stochastic distribution system planning method considering regulation services and energy storage degradation,” applied energy, accepted

81)t. ding, r. bo, w. gu, q. guo, and h. sun, "absolute value constraint based method for interval optimization to sced model," ieee transactions on power system, vol. 29, no. 2, pp. 980-981, 2014.

82)t. ding, r. bo, f. li, q. guo, h. sun, w. gu and g. zhou, "interval power flow analysis using linear relaxation and optimality-based bounds tightening (obbt) methods," ieee transactions on power systems, vol. 30, no. 1, pp. 177-188, 2015.

83)t. ding, r. bo, f. li, y. gu, q. guo and h. sun, "exact penalty function based constraint relaxation method for optimal power flow considering wind generation uncertainty," ieee transactions on power systems, vol. 30, no. 3, pp. 1546-1547, 2015.

84)t. ding, r. bo, h.sun, f. li, and q. guo, “a robust two-level coordinated static voltage security region for centrally integrated wind,” ieee transactions on smart grid, vol. 7, no. 1, pp. 460-470, 2016.

85)h. jin, z. li, h. sun, q guo, and b. wang, “coordination on industrial load control and climate control in manufacturing industry under tou prices,” ieee transactions on smart grid, doi: 10.1109/tsg.2017.2733578

86)h. jin, z. li, h. sun, and q guo, “a two-stage reactive power optimization in transmission network incorporating reserves from voltage-dependent loads,” energy, 2018, 157:752-763.

87)h. jin, z. li, h. sun, q. guo, r. chen, and b. wang, “a robust aggregate model and the two-stage solution method to incorporate energy intensive enterprise in power system unit commitment,” applied energy, 2017, 206:1364-1378.

88)y. xue, z. li, c. lin, q. guo, and h. sun, “coordinated dispatch of integrated electric and district heating systems using heterogeneous decomposition.” ieee transactions on sustainable energy, doi: 10.1109/tste.2019.2929183.

89)y. xue, m. shahidehpour , z. pan, b. wang, q. zhou, q. guo, and h. sun, “reconfiguration of district heating network for operational flexibility enhancement in power system unit commitment”, ieee transactions on sustainable energy (early access), 2020

90)h. zhao, b. wang, z. pan, h. sun, q. guo and y. xue, "aggregating additional flexibility from quick-start devices for multi-energy virtual power plants", ieee transactions on sustainable energy, to be published.

91)l. deng, z. li, h. sun, q. guo, y. xu, r. chen, j. wang, y. guo, "generalized locational marginal pricing in a heat-and-electricity-integrated market", ieee trans. smart grid, vol. 10, no. 6, pp. 6414-6425, 2019.

92)b. chen, w. wu, c. lin, q. guo, h. sun, "improving flexibility for microgrids by coordinated optimization of electricity and steam networks," ieee transactions on sustainable energy, accepted.

93)h. sun, f. zhao, h. wang, k. wang, w. jiang, q. guo, and b. zhang, “automatic learning of fine operating rules for online power system security control,” ieee transactions on neural networks and learning systems, vol. 27, no. 8, pp. 1708-1719, 2016

94)h. zhao, q. wu, q. guo, h. sun, and y. xue, “optimal active power control of a wind farm equipped with energy storage system based on distributed model predictive control,” iet generation, transmission & distribution, vol. 10, no. 3, pp. 669-677, 2016.

95)h. zhao, q. wu, s. huang, m. shahidehpour, q. guo, and h. sun, “fatigue load sensitivity based optimal active power dispatch for wind farms,” ieee transactions on sustainable energy, vol. 8, no. 3, pp. 1247-1259, 2017

96)c. chen, h. sun, x. shen, q. guo, y. guo, and tian xia. “two-stage robust planning-operation co-optimization of energy hub considering precise energy storage economic model”. applied energy, 2019 (accepted, to appear).

97)y. guo, b. zhang, w. wu, q. guo and h. sun, "solvability and solutions for bus-type extended load flow," international journal of electrical power and energy systems, vol. 51, pp. 89-97, 2013.

98)t. ding, q. guo, r. bo, h. sun and b. zhang, "a static voltage security region for centralized wind power integration-part i: concept and method," energies, vol. 7, no. 1, pp. 420-443, 2014.

99)t. ding, q. guo, r. bo, h. sun, b. zhang and t. huang, "a static voltage security region for centralized wind power integration-part ii: applications," energies, vol. 7, no. 1, pp. 444-461, 2014.

100)h. ge, q. guo, h. sun, b. wang, b. zhang and w. wu, "a load fluctuation characteristic index and its application to pilot node selection," energies, vol. 7, no. 1, pp. 115-129, 2014

101)j. chen, w. wu, b. zhang, b. wang, and q. guo, "a spinning reserve allocation method for power generation dispatch accommodating large-scale wind power integration," energies, vol. 6, no. 10, pp. 5357-5381, 2013.

102)y. wang, q. wu, h xu. q. guo, and h. sun, “fast coordinated control of dfig wind turbine generators for low and high voltage ride-through,” engergies, vol.7, no.7, pp. 4140-4156, 2014

103)z. pan, q. guo, and h. sun, “impacts of optimization interval on home energy scheduling for thermostatically controlled appliances,” csee journal of power and energy systems, vol. 1, no. 2, pp.90-100, 2015.

104)z. li, q. guo, h. sun, j. wang. “extended sufficient conditions for exact relaxation of the complementarity constraints in storage-concerned economic dispatch,” csee journal of power and energy systems, vol. 4, no. 4, pp.504-512, 2018.

105)t. hu, w. wu, q. guo, h. sun, l. shi, x. shen, "very-short-term spatial and temporal wind power forecasting: a deep learning approach," in csee journal of power and energy systems, (doi: 10.17775/cseejpes.2018.00010).

(3)selected conference papers since 2010

1)q. guo, h. sun, y. liu, r. chen, b. wang and b. zhang, "distributed automatic voltage control framework for large-scale wind integration in china," in 2012 ieee pes general meeting, san diego, usa, july 22-26, 2012.

2)q. guo, h. sun, y. wang, z. li and b. zhang, "current energy management technologies research in china considering evs integration," in 2012 ieee pes general meeting, san diego, usa, july 22-26, 2012.

3)q. guo, y. wang, h. sun, z. li and b. zhang, "research on architecture of its based smart charging guide system," in 2011 ieee pes general meeting, detroit, usa, july 24-28, 2011.

4)q. guo, h. sun, j. tong, m. zhang, b. wang and b. zhang, "study of system-wide automatic voltage control on pjm system," in 2010 ieee pes general meeting, minneapolis, usa, july 25-29, 2010.

5)t. yang, q. guo, l. xu, j. lan and h. sun, "leveraging urban integrated energy-traffic systems with vehicle re-allocation," 2019 ieee power & energy society general meeting (pesgm), atlanta, ga, usa, 2019, pp. 1-5.

6)z. qiao, q. guo, h. sun, l. jia and w. zhao, "static voltage stability margin considering the coupling of natural gas and power system," 2018 ieee power & energy society general meeting (pesgm), portland, or, 2018, pp. 1-5.

7)l. xu, q. guo, h. sun and z. su, "a routing optimization model for ems of power systems considering cyber-physical interdependence," 2017 ieee conference on energy internet and energy system integration (ei2), beijing, 2017, pp. 1-5. (best conference paper)

8)z. zhou, q. guo, h. sun, and k. zhang, “charging station selection optimization based on electric and traffic information,” in 2017 ieee power & energy society general meeting, chicago, usa, july 16-20, 2017.

9)f. yang, q. guo, z. pan, and h. sun, “building energy management based on demand response strategy considering dynamic thermal characteristic,” in 2017 ieee power & energy society general meeting, chicago, usa, july 16-20, 2017.

10)z. li, q. guo, h. sun, and h. su, “admm-based decentralized demand response method in electric vehicle virtual power plant,” in 2016 ieee power & energy society general meeting, boston, usa, july 17-21, 2016. (best conference paper)

11)s. xin, q. guo, h. sun, and j. wang, “cyber-physical assessment and comparison between centralized and distributed control mode in coordinated substation voltage control,” in 2016 ieee power & energy society general meeting, boston, usa, july 17-21, 2016. (best conference paper)

12)j. dong, q. guo, h. sun, and z. pan, “research on state estimation for combined heat and power networks,” in 2016 ieee power & energy society general meeting, boston, usa, july 17-21, 2016.

13)t. huang, q. guo, h. sun, t. niu, w. guo, and b. wang, “crucial power flow interface discrimination based on distributed improved-svm classification in a big data set,” in 2016 ieee power & energy society general meeting, boston, usa, july 17-21, 2016.

14)z. pan, q. guo, h. sun, "a robust method based storage aggregator model for grid dispatch," in 2015 ieee power & energy society general meeting, denver, usa, july 26-30, 2015.

15)f. xu, q. guo, h. sun, b. wang and q. wu, "a secondary voltage control method for an ac/dc coupled transmission system based on model predictive control," in 2015 ieee power & energy society general meeting, denver, usa, july 26-30, 2015.

16)t. niu, q. guo, n. jia, h. sun, b. wang and b. zhang, "coordinate control of active and reactive power in wind integration area to prevent cascading trip fault," in international conference on renewable power generation (rpg 2015), beijing, china, october 17-18, 2015.

17)f. yang, q. guo, z. pan, h. sun and d. yan, "demand response capability assessment for buildings based on simulation and model simplification," in 2015 ieee pes asia-pacific power and energy engineering conference (appeec), brisbane, australia, november 15-18, 2015.

18)f. wu, q. guo, h. sun and z. pan, "research on the optimization of combined heat and power microgrids with renewable energy," in 2014 ieee pes asia-pacific power and energy engineering conference (appeec), hong kong, december 7-10, 2014.

19)z. li, q. guo, h. sun and s. xin, "a decentralized optimization method to track electric vehicle aggregator's optimal charging plan," in 2014 ieee pes general meeting | conference & exposition, national harbor, usa, july 27-31, 2014.

20)s. xin, q. guo, h. sun, z. li, b. wang, “a v2g prototype system: design, field test and discussion”, in ieee transportation electrification conference, beijing, china, august 31-september 2, 2014.

21)s. xin, q. guo, h. sun, z. li, b. zhang and s. zhang, "a hybrid simulation method for evs' operation considering power grid and traffic information," in 2013 ieee pes general meeting, vancouver, canada, july 21-25, 2013.

22)f. zhao, q. guo, h. sun, m. wang and b. wang, "power system online security operational trend analysis and simulation results," in 2013 ieee pes general meeting, vancouver, canada, july 21-25, 2013.

23)d. tao, q. guo, h. sun, b. wang and f. xu, "a quadratic robust optimization model for automatic voltage control on wind farm side," in 2013 ieee pes general meeting, vancouver, canada, july 21-25, 2013

24)y. wang, q. guo, h. sun and z. li, "an investigation into the impacts of the crucial factors on evs charging load," in 2012 ieee isgt-asia, tianjin, china, may 21-24, 2012.

25)m. zhang, q. guo, h. sun and b. zhang, "a sensitivity based simplified model for security constrained optimal power flow," in 2012 ieee isgt-asia, tianjin, china, may 21-24, 2012.

26)y. zhang, q. guo, w. wu, h. sun and j. wang, "two-level distributed modeling of protection device based on iec 61850," in 2012 ieee isgt-asia, tianjin, china, may 21-24, 2012.

27)y. liu, q. guo, h. sun, r. chen, b. wang and b. zhang, "network model based coordinated automatic voltage control strategy for wind farm," in 2012 ieee isgt-asia, tianjin, china, may 21-24, 2012

28)b. wang, q. guo, h. sun, h. li, j. luo, b. zhang and w. wu, "bidirectional interaction based coordinated voltage control system for hierarchical electrical power control centers," in 4th iasted asia-pes 2010, phuket, thailand, november 24-26, 2010.

29)y. xue, z. pan, q. guo, h. sun and w. xiong, "coordinated risk assessment of integrated electric and district heating systems," 2019 ieee power & energy society general meeting (pesgm), atlanta, ga, usa, 2019, pp. 1-5.

30)c. chen, x. shen, q. guo, h. sun and m. shahidehpour, "adaptive robust planning-operation co-optimization of energy hubs with modified column-and-constraint generation algorithm," 2019 ieee power & energy society general meeting (pesgm), atlanta, ga, usa, 2019, pp. 1-5. (best conference paper)

31)x. tai, h. sun, q. guo and z. li, "looped network oriented distributed power routing method with the operation of phase shifters," 2018 ieee power & energy society general meeting (pesgm), portland, or, 2018, pp. 1-5. (best conference paper)

32)z. zhou, h. sun and q. guo, "stochastic user equilibrium in charging station selection based on discrete choice model," 2018 ieee power & energy society general meeting (pesgm), portland, or, 2018, pp. 1-5.

33)h. jin, h. sun, q. guo, r. chen, and z. li, “power system multi-day stochastic scheduling considering the uncertainty of csp/wind plants,” in 2016 ieee power & energy society general meeting, boston, usa, july 17-21, 2016.

34)w. zhao, x. shi, q. guo, "voltage security analysis with high pvs penetration considering the interaction of transmission and distribution grids: case studies," in 2015 ieee pes asia-pacific power and energy engineering conference (appeec), brisbane, australia, november 15-18, 2015.

35)t. niu, h. liu, q. guo, h. lan, h. sun, y. wang, b. wang and x. liu, "wind farm side optimal power flow based on distflow and socp: model and case study," in 2014 ieee pes asia-pacific power and energy engineering conference (appeec), hong kong, december 7-10, 2014.

36)j. mu, h. sun, q. guo, w. wu, f. xu and b. zhang, "design of an online intelligent alarming system for cascading failures of group of wind farms," in 2013 ieee pes general meeting, vancouver, canada, july 21-25, 2013.

37)z. pan, h. sun and q. guo, "tou-based optimal energy management for smart home," in 2013 ieee isgt-europe, copenhagen, denmark, october 6-9, 2013.

38)x. wang, b. wang, q. guo, h. sun, b. zhang and m. zhang, "reactive power substitution between rapid and slow dynamic var compensators," in 2013 ieee pes general meeting, vancouver, canada, july 21-25, 2013.

39)z. li, h. sun, q. guo, y. wang and b. zhang, "gpf-based method for evaluating evs' free charging impacts in distribution system," in 2012 ieee pes general meeting, san diego, usa, july 22-26, 2012.

40)z. li, h. sun, q. guo, y. wang and b. zhang, "study on wind-ev complementation in transmission grid side," in 2011 ieee pes general meeting, detroit, usa, july 24-28, 2011.

41)j. mu, w. wu, h. sun, q. guo, y. zhang and b. zhang, "an online intelligent alarm-processing system based on abductive reasoning network," in 2012 ieee pes general meeting, san diego, usa, july 22-26, 2012.

42)h. sun, b. zhang, w. wu and q. guo, "family of energy management system for smart grid," in 2012 iee isgt-europe, berlin, germany, october 14-17, 2012.

43)h. sun, w. jiang, b. wang, q. guo, b. zhang and k. wang, "preliminary research on power demand model of high energy consumers for smart grid in china," in 2010 ieee pes general meeting, minneapolis, usa, july 25-29, 2010.

44)h. zhao, q. wu, c. n. rasmussen, q. guo and h. sun, "distributed model predictive control for active power control of wind farm," in 2014 ieee pes innovative smart grid technologies, istanbul, turkey, february 19-22, 2014.

45)z. zhou, x. zhang, s. j. moura, h. zhang, q. guo and h. sun, "a game-theoretic approach to analyzing equilibria in coupled power and transportation networks," 2019 ieee power & energy society general meeting (pesgm), atlanta, ga, usa, 2019, pp. 1-5.

46)z. pan, j. wu, m. abeysekera, h. sun, q. guo, "quasi-dynamic interactions between electricity systems and heating systems in normal operation," 2017 ieee conference on energy internet and energy system integration (ei2), beijing, 2017, pp. 1-6. (best conference paper)

47)x. wang, h. sun, b. zhang, w. wu and q. guo, "real-time local voltage stability monitoring based on pmu and recursive least square method with variable forgetting factors," in 2012 ieee isgt-asia, tianjin, china, may 21-24, 2012.

48)j. tong, d.w. souder, c. pilong, m. zhang, q. guo, h. sun and b. zhang, "voltage control practices and tools used for system voltage control of pjm," in 2011 ieee pes general meeting, detroit, usa, july 24-28, 2011.

49)z. su, s. xin, l. xu, w. li, z. shi, q. guo, h. sun. "a compensation method based assessment of cyber contingency for cyber-physical power systems," 2018 ieee power & energy society general meeting (pesgm), portland, or, 2018, pp. 1-5.

50)b. zhang, j. chen, w. wu, t. zheng, h. sun and q. guo, "real-time power dispatch method under wind power curtailed conditions for large scale power grid," in 8th power plant and power system control symposium, toulouse, france, september 2-5, 2012.

51)q. li, h. sun, j. wang, b. zhang, w. wu and q. guo, "substation three-phase nonlinear state estimation based on kcl," in 2011 ieee/pes power systems conference and exposition, phoenix, usa, march 20-23, 2011.

52)m. k. n. m. sarmin, m. zhang, s. k. s. abdullah, f. h. ismail, n. saadun, m. t. azmi, h. sun and q. guo, "a systematic study of system-wide automatic coordinated voltage control for tnb system," in 2014 ieee innovative smart grid technologies - asia (isgt asia), kuala lumpur, malaysia, may 20-23, 2014

(4)selected chinese journal papers since 2010

1)q. guo, s. xin, h. sun, and j. wang, “power system cyber-physical modelling and security assessment: motivation and ideas,” proceedings of the chinese society of electrical engineering vol. 36, no. 6, pp. 1481-1489, 2017

2)q. guo, s. xin, j. wang, h. sun, “comprehensive security assessment for a cyber physical energy syste: a lesson from ukraine’s blackout,” dianli xitong zidonghua/automation of electric power systems, vol. 40, no. 5, pp. 145-147, 2016

3)q. guo, b. wang, h. sun, b. zhang, l. tang and h. liu, “autonomous-synergic voltage control to support large-scale wind powers integration:control architecture and key technologies,” dianli xitong zidonghua/automation of electric power systems, vol. 38, no. 1, pp. 88-93 130, 2015

4)x. wang, q. guo, h. sun, b. wang, m. zhang, b. zhang, “secondary voltage control considering rapid dynamic reactive power compensation,” dianli xitong zidonghua/automation of electric power systems, vol. 39, no. 2, pp. 53-60, 2015

5)b. wang, q. guo, h. zhou, l. tang, h. gu and h. sun, "applications of coordinated automatic voltage control integrated for regional, provincial and prefectural control centers in china southern power grid," dianli xitong zidonghua/automation of electric power systems, vol. 38, no. 13, pp. 208-215, 2014.

6)t. ding, q. guo, h. sun, f. xu, x. xu and l. jia, "a voltage control strategy for preventing cascading trips of large-scale wind power in centralized area," dianli xitong zidonghua/automation of electric power systems, vol. 38, no. 11, pp. 7-12, 2014.

7)f. xu, q. guo, h. sun, h. lan, h. liu, and x liu, “automatic voltage control of wind farms based on model predictive control theory,” dianli xitong zidonghua/automation of electric power systems, 2015,39(7):59-67.

8)f. xu, q. guo, h. sun, b. zhang, b. wang, z. li, t. ding, l. jia and x. xu, "analysis and simulation research on cascading trips of multiple wind farms," dianwang jishu/power system technology, vol. 38, no. 6, pp. 1425-1431, 2014.

9)t. ding, q. guo, r. bo, w. gu, h. sun and b. zhang, "solving of interval dc power flow using interval hull algorithm with preconditioning," dianli xitong zidonghua/automation of electric power systems, vol. 38, no. 3, pp. 130-136, 2014.

10)t. ding, q. guo, r. bo, h. sun, w. wu, b. zhang and z. yao, "two-stage heuristic-correction for dynamic reactive power optimization based on relaxation-mpec and miqp," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 34, no. 13, pp. 2100-2107, 2014.

11)t. ding, q. guo, r. bo, l. zhang, h. sun, w. wu and b. zhang, "interval economic dispatch model with uncertain wind power injection and spatial branch and bound method," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 34, no. 22, pp. 3707-3714, 2014.

12)z. li, q. guo, h. sun and s. xin, "real-time charging optimization method considering vehicle charging prediction," dianli xitong zidonghua/automation of electric power systems, vol. 38, no. 9, pp. 61-68, 2014.

13)h. sun, q. guo, w. wu, b. zhang, b. wang, y. liu and m. wang, “wind farm distributed energy management system: architecture and key technologies,” dianli xitong baohu yu kongzhi/power system protection and control, vol. 42, no. 5, pp. 26-31, 2014

14)b. wang, q. guo, h. sun, h. li, j. luo, b. zhang and w. wu, "research on generation and execution of coordination strategy for bi-directional and interactive coordinated voltage control between provincial and district levels," dianwang jishu/power system technology, vol. 37, no. 12, pp. 3426-3432, 2013.

15)b. wang, q. guo, h. sun, l. tang, b. zhang and w. wu, "automatic voltage control for ultra-high voltage ac neighboring grids," dianli xitong zidonghua/automation of electric power systems, vol. 37, no. 21, pp. 99-105, 2013.

16)t. ding, q. guo, h. sun, r. bo and z. yao, "power system economic dispatch algorithm with prohibited zones," qinghua daxue xuebao/journal of tsinghua university, vol. 53, no. 4, pp. 447-452, 2013.

17)m. zhang, q. guo, h. sun, j. tong, b. zhang, w. wu and b. wang, "design and implementation of automatic voltage control system applied to a power grid in northeast us," dianwang jishu/power system technology, vol. 37, no. 2, pp. 349-355, 2013.

18)m. zhang, q. guo, h. sun, b. zhang, w. wu and b. wang, "a cooperative game theory based multi-objective reactive voltage optimization model and its solution," dianli xitong zidonghua/automation of electric power systems, vol. 36, no. 18, pp. 116-121 133, 2012.

19)r. chen, q. guo, h. sun, b. zhang, b. wang, y. su and j. zhou, "pilot bus selection in automatic voltage control," dianli zidonghua shebei/electric power automation equipment, vol. 32, no. 9, pp. 111-116, 2012.

20)b. wang, q. guo, h. sun, b. zhang, w. wu and j. luo, "coordinated constraint generating technology for bidirectional interaction based provincial coordinated voltage control system," dianli xitong zidonghua/automation of electric power systems, vol. 35, no. 13, pp. 66-71, 2011.

21)b. wang, q. guo, h. sun, b. zhang and w. wu, "design of iec 61970 based information exchange model for coordinated automatic voltage control among multi control centers," dianwang jishu/power system technology, vol. 35, no. 3, pp. 205-210, 2011.

22)b. wang, q. guo, h. sun, b. zhang and w. wu, "embedded software system based on ems platform," dianli xitong zidonghua/automation of electric power systems, vol. 34, no. 9, pp. 99-102, 2010.

23)b. wang, q. guo, h. sun, b. zhang, h. li and j. luo, "bidirectional-interaction based voltage control system by coordination between provincial and district power networks," dianli xitong zidonghua/automation of electric power systems, vol. 34, no. 12, pp. 53-57, 2010.

24)t. ding, r. bo, q. guo, h. sun, w. wu and b. zhang, "a non-iterative affine arithmetic methodology for interval power flow analysis of transmission network," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 33, no. 19, pp. 76-83, 2013.

25)z. li, h. sun, q. guo and y. wang, "study on wind-ev complementation on the transmission grid side considering carbon emission," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 32, no. 10, pp. 41-48, 2012.

26)f. zhao, h. sun, y. tan, q. guo and w. guo, "automatic discovery method of power system critical flowgates considering multiple security themes in power grid," dianwang jishu/power system technology, vol. 38, no. 5, pp. 1169-1174, 2014.

27)h. sun, b. zhang, w. wu and q. guo, "autonomous-synergetic energy management system family for smart grids: concept, architecture and cases," dianli xitong zidonghua/automation of electric power systems, vol. 38, no. 9, pp. 1-5 and 14, 2014.

28)z. li, w. wu, b. zhang and q. guo, "a large-scale reactive power optimization method based on gaussian penalty function with discrete control variables," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 33, no. 4, pp. 68-76, 2013.

29)y. guo, w. wu, b. zhang and q. guo, "application research on bus-type extended load flow," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 31, no. 16, pp. 81-87, 2011.

30)j. chen, w. tang, x. xiao, j. wang, j. wang, q. guo and h. sun, "coordinated voltage control for central china power grid," dianli zidonghua shebei/electric power automation equipment, vol. 31, no. 8, pp. 47-51, 2011.

31)j. chen, w. wu, b. zhang, b. wang and q. guo, "a robust interval wind power dispatch method considering the tradeoff between security and economy," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 34, no. 7, pp. 1033-1040, 2014.

32)h. sun, q. li, m. zhang, b. wang, q. guo and b. zhang, "continuation power flow method based on dynamic power flow equation," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 31, no. 7, pp. 77-82, 2011.

33)j. wang, h. sun, r. chen, y. zhang, w. wu and q. guo, "substation-control center two-level distributed network modeling," dianli xitong zidonghua/automation of electric power systems, vol. 38, no. 9, pp. 107-113 and 151, 2014.

34)q. li, h. sun, j. wang, b. zhang, w. wu and q. guo, "substation-dispatch center two-level distributed state estimation," dianli xitong zidonghua/automation of electric power systems, vol. 36, no. 7, pp. 44-50 91, 2012.

35)j. wang, m. ge, h. sun, q. li, w. wu, q. guo and b. zhang, "a comprehensive rule based method for substation topology error identification," dianwang jishu/power system technology, vol. 36, no. 5, pp. 166-172, 2012.

36)q. li, h. sun, j. wang, b. zhang, w. wu and q. guo, "zero impedance branch based substation three-phase nonlinear state estimation method," zhongguo dianji gongcheng xuebao/proceedings of the chinese society of electrical engineering, vol. 31, no. 25, pp. 73-80, 2011.

(5)invited talks

"test systems for cpps: combined optimization to enhance cps resilience," panel on “reliability of cyber-physical power system test systems and standard enhancement”, in 2019 iee pes general meeting

“coordinated optimization of transportation-energy systems: a cyber-physical-society system (cpss) perspective”, in 2019 international conference on clean energy (icce 2019)

“iems: the brain of future energy internet”, panel on “the automation of modern distribution systems”, in 2018 china international conference on electricity distribution

“automatic voltage control”, tutorial on “fundamentals and best practices of energy management systems and automatic voltage control”, in 2018 iee pes general meeting

"modeling of control center cyber-physical systems," panel on “modeling of emerging cyber-physical power system: challenges and practices”, in 2018 iee pes general meeting

"operation knowledge discovery based on big data from ems system," panel on “advanced data analytics for ems”, in 2017 iee pes general meeting

"hierarchical automatic voltage control for integration of large-scale wind power: design and implementation," panel on “impact of renewable energy integration on voltage control design”, in 2015 iee pes general meeting

"voltage control challenges and experiences in china," panel on “industry experience with wide-area coordinated voltage control”, in 2014 ieee pes general meeting

“distributed automatic voltage control framework for large-scale wind integration in china,” panel on “renewable energy integration into smart grids: problems and solutions – asian and australasian experience”, in 2012 ieee pes general meeting

“current energy management technologies research in china considering evs,” panel on “international practices in developments, standards and techniques in smart grids”, in 2012 ieee pes general meeting

“bidirectional interaction based coordinated voltage control system for hierarchical electrical power control centers,” session on “power system and stability control”, in 2010 iasted asian conference on power and energy systems

(6)international authorized patent

q. guo, h. sun, b. zhang, w. wu, s. xin, and z. li, “method and device for navigating electric vehicle in charging,” patent no.: us9228847

h. sun, q. guo, b. zhang, w. wu, b. wang, and m. zhang, “static security constrained automatic voltage control method,” patent no.: us9164499

h. sun, q. guo, m. zhang, b. zhang, w. wu, and b. wang, “automatic voltage control method based on cooperative game theory,” patent no.: us9164499

h. sun, q. guo, b. zhang, w. wu, z. li, and s. xin, “method and system for charging electric vehicles in aggregation,” patent no.: us9248755

h. sun, q. guo, b. zhang, w. wu, z. li, and s. xin, “method and device for charging electric vehicle in power system,” patent no.: us9573481

h. sun, b. zhang, w. wu, q. guo, and q. li. “method of substation-control center two-level distributed nonlinear state estimation for power system,” patent no.: us8660807

(7)chinese authorized patent

q. guo, b. wang, h. sun, l. jia, l. tang, w. zhao, p. yuan, j. chen, h. wang. “method of voltage control based on running state of the ultra-high voltage tie lines”. chinese patent of invention, patent no.: zl 2010 1 0232571.x.

q. guo, h. li, h. sun, j. luo, b. wang, d. sun, b. zhang, j. liu, w. wu, h. liu, y. liu, l. tang. “method of wind turbine selection for voltage control at point of common coupling in wind farms”. chinese patent of invention, patent no.: zl 2012 1 0228867.3.

q. guo, h. sun, b. zhang, w. wu, y. wang, z. li, and s. xin, “a router path planning method for electric vehicle charging,” patent no.: zl. 2012 1 0194873.1

q. guo, h. sun, b. zhang, w. wu, s. xin, and z. li, “a method for navigating electric vehicle in charging,” patent no.: zl 2012 1 0553881.0

q. guo, h. sun, b. wang, x. xu, c. jiang, l. jia, b. zhang, w. wu, y. liu, and r. chen. “method to calculate sensitivity of voltage to var in a wind farm”. chinese patent of invention, patent no.: zl 2012 1 0228752.4

q. guo, y. li, j. zhang, j. he, x. wang, l. tang, and x. chu. “method to evaluate the reactive power control ability in a smart substation”. chinese patent of invention, patent no.: zl 2014 1 0354655.9

x. zhang, q. guo, b. wang, p. yuan, q. li, h. sun, l. tang, r. chen, x. li, l. jia, s. li. “method of remote automatic control of high-voltage shunt reactance considering voltage security of the system”. chinese patent of invention, patent no.: zl 2009 1 0210566.6.

h. sun, q. guo, b. wang, b. zhang, w. wu. “method of interactive voltage control of provincial and district power grid based on bidirectional-interaction constraints”. chinese patent of invention, patent no.: zl 2009 1 0091358.9.

l. tang, z. zhang, q. guo, s. niu, h. sun, x. ke, b. wang, x. feng, b. zhang, j. wang, y. liu. “method of selecting discrete var compensation equipment based on weighted operating factors”. chinese patent of invention, patent no.: zl 2010 1 0581738.3.

h. sun, l. jia, q. guo, p. yuan, x. xu, l. tang, z. guo, b. wang, x. he, y. wang, j. xing, c. zhou, b. zhang, x. zhou, s. wang, w. liu, x. xie, z. duan, w. wu, j. chen. “method of substation automatic voltage control based on control instruction encoding”. chinese patent of invention, patent no.: zl 2011 1 0007030.1.

h. sun, t. lu, q. guo, j. guo, b. wang, h. li, b. zhang, j. luo, w. wu, h. liu, j. chen. “method of obtaining upper and lower limit of bus voltage interactive control for interaction between provincial and district power grid”. chinese patent of invention, patent no.: zl 2009 1 0244486.2.

w. wu, b. zhang, h. sun, q. guo, b. zeng. “method of power network parameter estimation based on residue sensitivity of state estimation”. chinese patent of invention, patent no.: zl 2009 1 0083977.3.

h. sun, b. zhang, w. wu, q. guo, q. li. “method of substation distributed state estimation based on kirchhoff’s current law”. chinese patent of invention, patent no.: zl 2009 1 0079302.1

t. lu, h. sun, j. guo, q. guo, h. li, b. wang, j. luo, b. zhang, h. liu, w. wu, r. chen. “method of real-time obtaining control capability of district dispatch center in coordinative voltage control between provincial and district power grid”. chinese patent of invention, patent no.: zl 2009 1 0244489.6.

h. sun, b. zhang, w. wu, q. guo, q. li. “method of nonlinear state estimation for substation-control center two-level distributed power grid”. chinese patent of invention, patent no.: zl 2010 1 0237485.8.

h. sun, b. zhang, w. wu, q. guo, f. zhao. “method of automatic obtaining key flowgate based on electrical partitioning”. chinese patent of invention, patent no.: zl 2010 1 0523765.5.

h. sun, b. zhang, w. wu, q. guo, q. li. “method of substation three-phase zero-impedance nonlinear multi-source state estimation”. chinese patent of invention, patent no.: zl 2010 1 0140811.3.

h. sun, d. wang, w. wu, q. guo, b. zhang, q. li. “method of synchronizing and merging multi-source data for substation-control center two-level state estimation”. chinese patent of invention, patent no.: zl 2011 1 0397543.8.

w. wu, b. zhang, h. sun, q. guo, w. shen, j. chen. “method of large-scale power system rolling dispatch for accommodating wind power”. chinese patent of invention, patent no.: zl 2011 1 0084343.7.

b. zhang, w. wu, h. sun, q. guo, j. chen, w. shen. “method of large-scale power system real-time dispatch for accommodating wind power”. chinese patent of invention, patent no.: zl 2011 1 0001574.7.

h. li, h. sun, j. luo, q. guo, d. sun, b. wang, j. liu, b. zhang, h. li, w. wu, y. liu, l. tang. “method of assessing overall var control capability at point of common coupling of integrated wind farms”. chinese patent of invention, patent no.: zl 2012 1 0228705.x

(1) professional society membership

fellow, iet

senior member of ieee

co-chair of ieee pes work group on “energy internet”

co-chair of ieee pes task force on “voltage control for smart grid”

co-chair of ieee pes task force on “cyber-physical interdependence for power system operation and control”

chair of ieee comsoc sig energy internet and energy system integration

member of cigre

member of renewable energy integration subcommittee, power system automation committee, csee

member of power systems subcommittee, china education association of machinery industry

member of information technology subcommittee for wind power generation, china electricity council

member of cigre c2.13 workgroup

secretary of cigre c2.13 workgroup

member of cigre c2/c6.36 workgroup

member of ieee pes big data workgroup

member of ieee pes power system dynamic measurements workgroup

member of ieee pes cascading failure workgroup

member of the us-china clean energy research center for clean vehicles (cerc-cvc)

vice director of tsinghua-changyuan joint research institute of smart distribution grid

(2) editorship in international journals

editorial board member, ieee transactions on smart grid

editorial board member, ieee transactions on power systems

editorial board member, ieee power engineering letters

editorial board member, renewable & sustainable energy reviews

deputy subject editor, editorial board member, iet renewable power generation

associate editor, editorial board member, iet cyber-physical systems: theory & applications

editorial board member, journal of modern power systems and clean energy

editorial board member, protection and control of modern power systems

editorial board member, iet energy engineering book series

subject editor, csee journal of power & energy systems

guest editor-in-chief, special issue on “cyber-physical systems in smart grids: security and operation”, iet cyber-physical systems: theory & applications

guest editor-in-chief, special issue on “cyber physical system modeling and evaluation”, power system automation

guest editor-in-chief, special issue on “multi-vector energy system”, electric power automation equipment

guest editor, special issue on “cyber physical power systems (cpps)”, journal of modern power systems and clean energy

guest editor, special issue on “smart grid voltage control”, iet generation transmission and distribution

guest editor, special issue on “emerging technologies for virtual power plant and microgrid”, iet generation transmission and distribution

(3) chair and technical committee of conference

chair of the how internet thinking changes energy systems panel, ieee pes general meeting, 2020

chair of the energy internet and energy system integration: applications and experiences panel, ieee pes general meeting, 2019

chair of the addressing voltage control challenges for high penetration of distributed energy resources (ders) panel, ieee pes general meeting, 2018

chair of the publication committee of 2017 ieee conference on energy internet and energy system integration

member of the technical program committee of 2017 ieee conference on energy internet and energy system integration

chair of the impact of renewable energy integration on voltage control design panel, ieee pes general meeting, 2015

chair of the pspi transactions paper session on power system planning and implementation, ieee pes general meeting, 2015

chair of the power system and stability control session, iasted asian conference on power and energy systems, 2010

chair of the power system automation and protection session, 11th young scholars conferences of csee, 2010

member of the steering committee for deregulated electricity market issues in south eastern europe (demsee)

member of the technical program committee of 2017 ieee international conference on smart grid communications (smartgridcomm)

member of the international committee of the iasted asian conference on power and energy systems

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