Date: 27 October, 2018
Personal data
Name: |
Xian-Yong Xiao |
Civil status: |
Born 19th October 1968, Chinese citizen |
Address (work): |
College of Electrical Engineering and Information Technology, No.24 South Section 1, Yihuan Road, Chengdu, China, 610065 Tel: (0086)18908226899 - E-mail: xiaoxianyong@163.com |
Employment
2017-present |
Dean, College of Electrical Engineering and Information Technology, Sichuan University, Chengdu, China |
2010-present |
Professor, Doctoral Tutor, Sichuan University, Chengdu, China |
2000–2010 |
Associate Professor, Master Tutor, Sichuan University, Chengdu, China |
1990–2000 |
Teaching Assistant, Lecturer, Sichuan University, Chengdu, China |
Education
2007-2010 |
PhD, Power System and its Automation, Sichuan University, China MS, Power System and its Automation, Sichuan University, China |
1995-1998 |
1986-1990 |
BS, Power System and its Automation, Sichuan University, China |
Awards
2018 |
First Prize of Science and Technology Progress Award of China Southern Power Grid Company Limited |
2018 |
Third-class Prize of Sichuan Provincial Science and Technology Progress Award |
2018 |
2018 Annual Science and Technology Award of Shenzhen Power Supply Bureau Co.,Ltd |
2016 |
Chengdu Science and Technology Progress Award |
2013 |
The Seventh Higher Educational Sichuan Provincial Teaching Achievement Award (Third class) |
2012 |
Tanglixin-Sichuan University Youth Science Star Award, |
2008-present |
Sichuan Provincial Electric Science and Technology Progress Award (5 times) |
2002 |
Science and Technology Progress Award (Third class) |
Membership, services and activities within professional organizations
Senior Member, IEEE
Senior Member, Chinese Society for Electrical Engineering
Team leader of S2 of CIRED China Technical Committee
Director, Smart Grid Key Lab. of Sichuan Province, China
Deputy Director, Power Quality Key Lab. of Sichuan Province, China
Consultant in Electric Power Research Institute of State Grid Sichuan Electric Power Company, China Editorial Board Member of three journals, including Advanced Engineering Sciences, China Measurement & Test, Power Quality, Guangdong Electric Power
Committee member in Electrical Education Institute of Chinese (major: electrical economics)
One of the drafters of some electric power industry standards in China
Regular reviewer for more than 10 journals,including international journals such as IEEE Trans on Power Delivery、IEEE Trans on Smart Grid、IEEE Trans on Energy Conversion、IEEE Trans on Applied Superconductivity、International Journal of Electrical Power and Energy Systems、European Journal of Electrical Engineering, as well as national journals, for example, Proceedings of the CSEE, Power system technology, etc.
Committee and reviewer for conferences and project proposals
Research fields
Power quality and premium power, especially voltage sag and immunity of equipment to sag
Smart power supply system and premium power park
Blackout of power system analysis
Superconductivity applied to power system
Research experiences (in recent years)
Project |
Sponsor |
Research content |
Key technical research of risk assessment under voltage sag in power grid (person in charge, 2018 - 2020) |
Guangdong Power Grid Company of Limited Liability, Foshan Power Supply Bureau |
Investigate voltage sag mechanism and its propagation rule, research automatic technology for identifying voltage sag source, establish a model for quantification and assessment of voltage sag risks, present inhibiting measures and an optimizing scheme, develop a software for calculating risk domain. |
Technical research on premium power supplied by versatile converter devices (person in charge, 2017-2019) |
Guangzhou Power Supply Bureau Co. Ltd.
|
Recognize and quantify diversified user's demand in premium power, assess sensitive consumer's feeling and optimal power value, research differentiation plans and operation mode, put forward technical and economic analysis approaches as well as investing and financing strategies, establish cost, pricing and cost recovery mechanism. |
Key technology research on big data analysis and intelligent diagnosis of voltage sags (person in charge, 2017-2018) |
Nanjing Shining Electric Automation Co. Ltd.
|
Research eigenvalue calculation of voltage sag, recognize voltage sag types, study single-event and site indices under voltage sags, judge and distinguish voltage sag causes, investigate distinguishing methods of the scope of voltage sag source as well as assessment methods for voltage sag regional severity. |
Strategy for enhancing power quality by using superconducting magnetic energy storage and a scheme of designing compensation devices (person in charge, 2017-2018) |
State Grid Sichuan Electric Power Research Institute |
Provide a rapid test, assessment and diagnosis of power disturbance events at sensitive user's access nodes, investigate quantification and assessment methods of acceptable event-based disturbances towards high-end sensitive consumers, design a scheme to develop a compensation and control device based on superconducting magnetic energy storage. |
Financial Assessment on power quality disturbance and premium power park (person in charge, 2015-2017) |
State Grid Fujian Electric Power Research Institute
|
Investigate event-based and continuous power quality disturbance's impacts on consumer's typical sensitive equipment, study hierarchical classification schemes aiming at premium power parks, set up economic assessment of power supply schemes and pricing model of park's power. |
Characteristic and the response mechanism analysis for significant load under voltage sag and short interruption (person in charge, 2015- 2016) |
Electric Power Research Institute, State Grid Tianjin Electric Power Company
|
Investigate typical sensitive load's response characteristics under voltage sags and short time voltage interruption in active distribution networks, study methods for detecting and identifying short time disturbances, voltage sag source location as well as sensitive user's response strategies in active distribution networks. |
A system for information and state estimation of short time disturbances in Ziyang grid (person in charge, 2013- 2014) |
Ziyang Power Distribution Company,State Grid Sichuan Electric Power Company
|
Set forth technical requirements and indices of power quality monitoring devices, present quantification methods and configuration schemes of power quality monitoring devices about their optimized number and place, develop a set of system for information and state estimation of short time disturbances in Ziyang grid |
Influence factor evaluation of voltage sags in modern industrial parks and key technical research on its precaution and governance (main participant, 2018- 2019) |
State Grid Hubei Electric Power Research Institute
|
Develop an algorithm for identifying and locating a voltage sag source as well as calculating its propagation path, accomplish testing work about sensitive loads immune to voltage sags, set up a comprehensive evaluation model for demonstration projects in governing voltage sags, assess its governance effect |
Key technical research for risk assessment of voltage sag events towards high-technology users (main participant, 2018- 2020) |
Huizhou Power Supply Bureau, Guangdong Power Grid Co. Ltd.
|
Put forth an assessment on typical high-end user's immunity to voltage sags during its production process, establish a risk index system and bearing capacity model targeting for typical high-end users, evaluate its economic impacts, and propose inhibiting schemes and optimization methods |
Study on harmonic propagation characteristics and its inhibition measures of urban high-proportion infeed DC grid (main participant, 2018-2019) |
State Grid Shanghai Municipal Electric Power Company
|
Analyze a multi-infeed HVDC transmission network, ascertain areas vulnerable to harmonic amplification as well as contributions of each harmonic source at HVDC links, reveal what impact cable length plays on harmonic amplification, provide reference for cable configuration in urban transmission grid. |
Develop an analysis software of broadband harmonics (subharmonic, harmonic, inter-harmonic) in wind plants (main participant, 2017-2018) |
China Electric Power Research Institute
|
Set forth a harmonic detection approach in adjacent frequency based on multi-component spectrum superimposition algorithm, provide a precise measurement in detecting subharmonic, harmonic and inter-harmonic generated by a wind plant. |
Investigation on harmonic characteristic assessment in wind farms and PV stations (main participant, 2017- 2018) |
China Electric Power Research Institute
|
Present the method to divide harmonic responsibilities in DG power stations based on sparse clustering method, investigate a new approach to harmonic responsibility division. |
Study on location technology of harmonic source based on the measured data (main participant, 2017-2019) |
Huizhou Power Supply Bureau, Guangdong Power Grid Co. Ltd.
|
Study various power quality issues and their impacts on users and equipment, explore the relationships and decisive factors between disturbances and malfunctions, build responsibility assessment models for all sorts of power quality issues, investigate fundamental conditions of determining liabilities, put forward qualitative and quantitative approaches. |
Study on harmonic impacts of a half-wavelength transmission system with large-size DG stations and its response measures (main participant, 2016- 2017) |
Global Energy Interconnection Research Institute |
Present the harmonic propagation rule of half-wave-length transmission lines based on frequency factors, analyze harmonic impacts in a half-wavelength transmission system and put forth its response measures. |
Investigation and assessment on power quality emission level of typical interference sources with access to grid (main participant, 2015-2016) |
Guangdong Power Grid Company of Limited Liability, Foshan Power Supply Bureau
|
Investigate the emission level of typical interference sources with access to power grid, together with corresponding assessment and governance.
|
Study on tracking interference sources causing power quality issues (main participant, 2015-2016) |
Nari (Wuhan) Electrical Equipment and Engineering Energy Efficiency Evaluation Center
|
Put forward an approach to tracking an interference source based on power constraint, judge and determine its direction only by means of the data at joint nodes.
|
Key technology for premium power park and its demonstration research (main participant, 2018-2019) |
Yunfu Power Supply Bureau, Guangdong Power Grid Co. Ltd. |
Investigate theoretical application of power value and its assessment, study optimized combination of premium power technology schemes and its technical and economic analysis method.
|
M.Sc., Ph.D. and Post-doc supervision
Graduated MSc students: more than 100– Current MSc students: 20
Graduated PhD students: 4 – Current PhD students: 7
Post-doctor: 3
Management experience
PI at Smart Grid Key Lab. of Sichuan Province for a number of projects funded by the National Natural Science Foundation of China (NSFC) (eg. Key Technology Research on Intelligent Search of Power Quality Monitoring Information)
PI at Power Quality Key Lab. of Sichuan Province for a number of projects funded by the State Grid (eg. Research on the Typical Operation Mode and Stability of Regional Power Network)
PI for projects directly financed by industry (eg. Chengdu Precision Optical Engineering Center, Yanshan Iron & Steel Co., Ltd)
Consultant for State Grid and China Southern Power Grid
International Activities
Attendee, Working Group Meeting: CIGRE/CIRED JWG C4.42“Continuous assessment of low-order harmonic emissions from customer installations” , May, 2018, Ljubljana, Slovenia
Attendee, 18th International Conference on Harmonic and quality of power (ICHQP 2018), May 13th –May 15th, 2018, Ljubljana, Slovenia
Attendee in 2018 IEEE International Conference on Applied Superconductivity and Electromagnetic Devices, and invited chair and host in charge of Power and New Energy parallel session, Apr, 2018, Tianjin, China.
Academic visitor to Technical University of Denmark, communication on integration of distributed
generation in the active distribution network and smart control of micro grid, Nov ,2017, Copenhagen, Denmark.
Invited reporter, IEEE China Council Council of Superconductivity Chapter(CCCSC), Jan 2017, Wuhan, China.
Host, International Brainstorm Workshop: Techniques for assessing harmonic emissions from customers, June 25, 2017- June 27,2017, Chengdu, China.
Invited reporter, IEEE 2015 International Conference on Applied Superconductivity and Electromagnetic Devices, 2015, Shanghai, China
Session Chair, IEEE 2013 International Conference on Applied Superconductivity and Electromagnetic Devices, 2013, Beijing, China
Service to POWERCON-2014 as one of the key members in the Co-organizers, 2014, Chengdu, China
Presentations, ASEMD 2015, POWERCON 2014, ASEMD 2013, and so on
Organized workshops (invited IEEE fellows to Sichuan University: Math Bollen, Wilsun Xu and so on)
Publications
Books |
5 |
International peer-reviewed journal articles(main author) |
>25 |
International peer-reviewed conferences(main author) |
>40 |
Other publications (Chinese peer-reviewed journal articles, conf., tech. reports, etc.) (main author) |
>100 |
Invited talks |
>20 |
Recent relevant publications (books)
Xiao, X.Y. (2018) Uncertainty theory & Uncertainty Measure theory - Application in the Power System, Sichuan University Press. China Electric Power Press (in Chinese).
Math H. J. Bollen, Understanding power quality problems: voltage sags and Interruptions, translated into Chinese by Xiao, X.Y., China Electric Power Press (2016)
Clark W. Gellings, The Smart Grid Enabling Energy Efficiency and Demand Response, translated into Chinese by Xiao, X.Y., China Electric Power Press (2011)
Xiao, X.Y. and Yang, H.G. (2011). Technical and Economic Principles of Electricity. China Electric Power Press, (in Chinese).
Xiao, X.Y. (2004). Marketing Principle in Electrical Market. China Electric Power Press, (in Chinese).
Relevant publications (relevant journal articles more than 100, since 2009)
International Journal Papers from 2010
[1] Xian-Yong Xiao, Yun-Zhu Chen, Ying Wang and Yuan-Qian Ma. Multi-Attribute Analysis on Voltage Sag Insurance Mechanisms and Their Feasibility for Sensitive Customers[J]. IET Generation, Transmission&Distribution, 2018, 12(16):3892-3899.
[2] Xian-Yong Xiao, Xian Zheng, Ying Wang, Shuangting Xu and Zixuan Zheng. A method for utility harmonic impedance estimation based on constrained complex independent component analysis [J]. Energies, 2018, accepted.
[3] Yuanqian Ma, Xian-Yong Xiao and Ying Wang, Investment Strategy and multi-objective optimization scheme for premium power under the background of the opening of electric retail side [J]. Energies, 2018, 11, 2135.
[4] Xiao, X.Y., Yang R.H., Chen X.Y. and Zheng Z.X.. Integrated DFIG protection with a modified SMES-FCL under symmetrical and asymmetrical faults [J]. IEEE Transactions on Applied Superconductivity, 2018, Volume: 28 , Issue: 4, Article#:5400606
[5] Xiao X.Y., Yang R.H., Chen X.Y., Zheng Z.X., Li C.S.*. Enhancing FRT capability of DFIG with modified SMES-FCL and RSC control[J]. IET Generation, Transmission & Distribution,2018, 12(1): 258-266.
[6] Heng Zhao, Xiao, X.Y.* and Qiuqin Sun. Identifying electric shock in the human body via α disperison[J]. IEEE Transactions on Power Delivery, 2018,33(3):1107-1114.
[7] Zhang W.H, Xiao, X.Y.*, Zhou K., Xu W. and Jing Y.D.. Multi-cycle incipient fault detection and location for medium voltage underground cable [J]. IEEE Transactions on Power Delivery, 2017,32(3):1450-1459.
[8] Zixuan Zheng, Xiaoyuan Chen, Xiao, X.Y.*, et al, Design and Evaluation of a Mini-Size SMES Magnet for Hybrid Energy Storage Application in a kW-Class Dynamic Voltage Restorer, IEEE Transactions on Applied Superconductivity, Volume: 27 , Issue: 7, Article#:5700911
[9] Wang Y, Bagheri A., Bollen, MHJ and Xiao, X.Y.* (2017) Single-Event Characteristics for Voltage Dips in Three-Phase Systems. IEEE Trans. on Power Delivery, 2017,32(2):832-840.
[10] Zou Z.C., Chen X., Li C., Xiao, X.Y.*, Zhang Y.(2016), Conceptual Design and Evaluation of a Resistive-Type SFCL for Efficient Fault Ride Through in a DFIG, IEEE Trans. on Applied Superconductivity, 2016, Volume: 26 , Issue: 1, Article#:5600209
[11] Wang, Y, Bollen, MHJ, Bagheri A. and Xiao, X.Y.*(2016) A quantitative comparison approach for different voltage dip characterization methods. Electric Power System Research 133:182-190.
[12] Zhang W., Jing Y., Xiao, X.Y.* Model-based general arcing fault detection in medium voltage distribution lines. IEEE Trans. on Power Delivery, 2016,31(5):2231-2241
[13] Xiao, X.Y., Ma Y.Q., Zhang Y., Liu Y, Wang Y., Premium Power Valuation Method Based on Customer Perception of Utility for High Technology Manufacturing Custom Power. IEEE Trans. on Power Delivery, 2016,31(4):1655-1662.
[14] Zhen Chen, Xiao, X.Y.*, Chang Song Li, et al. Study on Unit Commitment Problem Considering Large-Scale Superconducting Magnetic Energy Storage Systems[J]. IEEE Transactions on Applied Superconductivity,2016,26(7), Article#:5701306.
[15] Zou Z.C., Xiao, X.Y.*, Liu Y.F., Zhang Y., Wang Y.H.. Integrated protection of DFIG-based wind turbine with a resistive-type SFCL under symmetrical and asymmetrical faults [J]. IEEE Transactions on Applied Superconductivity,2016,26(7), Article#:5603005.
[16] Ou R., Xiao, X.Y.*, Zou Z.C., Zhang Y., and Wang Y.H.. Cooperative Control of SFCL and reactive power for improving the transient voltage stability of grid-connected wind farm with DFIGs [J]. IEEE Transactions on Applied Superconductivity, 2016,26(7), Article#:5402606.
[17] Xiao, X.Y., Liu Y., Jin J.X.,Li C.S. and Xu F.W. HTS Applied to Power System: Benefit and Potential Analysis for Energy Conservation and Emission Reduction[J].IEEE Transactions on Applied Superconductivity,2016,26(7): Article#:5403309
[18] Jin J.X., Tang Y.J., Xiao, X.Y., et al. HTS Power Devices and Systems: Principles, Characteristics, Performance, and Efficiency[J].IEEE Transactions on Applied Superconductivity,2016,26(7): Article#:3800526
[19] Zheng Z.X., Li C.S., Xiao, X.Y.*, Chen Z., and Zhang Y.. Performance Evaluation of SMES System for Initial and Steady Voltage Sag Compensations [J].IEEE Trans on Applied Superconductivity, 2016,26(7): Article#:5701105
[20] Chen, Z, Xiao, X.Y.*, Li, C.S, Zhang, Y, Hu, Q.Q. (2015). Real-time transient stability status prediction using cost-sensitive extreme learning machine. Neural Comput Appl, 2015,27(2):321-331.
[21] Wang, Y, Bollen, MHJ, Xiao, X.Y.* Calculation of the Phase-Angle-Jump for Voltage Dips in Three-Phase Systems. IEEE Trans. on Power Delivery ,2015,30(1):480-487
[22] Zhang, W.H., Xiao, X.Y.*, Yang, J.G., Li, Y., Yuan, M.Y., Xiong, Q. Circuit parameter calculation based on characteristic parameters and pseudo-impedance of damped oscillation signal. Acta Physica Sinica 2014,63(9): 098403-972.
[23] Ma, C., Xiao, X.Y.*, Li, C.S., Zhang, Y., Li, H.Q. Uncertain risk assessment model for catastrophic accidents in power system. International Journal of Electrical Power & Energy Systems, 2014,62: 374-382.
[24] Li W. F., Yang H. G., Xiao X. Y., Li X. Y. (2013). The effect of soil model on earth surface potential and reasonable selection method for soil model. Acta Physica Sinica, v 62, n 14, July 20.
[25] Li, H.Q., Xiao, X.Y.*, Wang, Y. and Chen, W. Probability Evaluation Method of Equipment Failure Due to Voltage Sags Considering Multi-uncertain Properties. International Journal of Electrical Power and Energy Systems, 2011, 33(3): 608-614.
[26] Xiao, X.Y., Ma, C., Yang, H.G., Chen, W., Li, H.Q. Failure probability analysis of sensitive equipment due to voltage sags using fuzzy-random assessment method. IEEE Trans. on Power Delivery, 2010,25(4):2970 - 2975.
[27] Xiao, X.Y., Xu, F.W. and Yang, H.G. Short duration disturbance classifying based on S-transform maximum similarity. International Journal of Electrical Power and Energy Systems, 2009,31(7): 374-378.
[28] Xiao, X.Y., Ma, C., Yang, H.G. and Li, H.Q. Maximum Entropy Probability Method Applied to Assess Voltage Sag Frequency Due to Power Transmission Line Fault. Applied Stochastic Models in Business and Industry, 2010, 26(5): 595–608.
National Journals papers 2005 to 2015
Proceedings of the Chinese society of electrical engineering
[1] Ma Yuanqian, Xiao Xianyong, Wang Ying, Zhang Yi, Yuan Yidan. Premium price valuation of premium power for high-end manufacturing enterprises [J]. Proceedings of the CSEE, 2015,35(supplement):99-104(EI:20154801621771)
[2] Tang Lin, Xiao Xianyong, Zhang Yi, Qiu Yutan, Wu Danyue. Voltage sag state and level assessment based on pattern matching method and multi—objective optimal monitors allocation [J]. Proceedings of the CSEE, 2015,35(13):3264-3271 (EI:20153201107480)
[3] Xiao Xianyong, Cui Can, Wang Yang, Liu Yang. Comparability and relevance of voltage sag classifying features and classification methods based on mahalanobis distance[J]. Proceedings of the CSEE, 2015,35(6):1299-1305 (EI:20151600764843)
[4] Liu Xuna, Xiao Xianyong, Wang Ying. Voltage sag severity and its measure and uncertainty evaluation [J]. Proceedings of the CSEE, 2014,34(4):644-658 (EI:20141017430821)
[5] Ma Chao, Xiao Xianyong, Li ChangSong, Yang JingGang. Basic framework and model of identification and risk assessment of power grid cascading failures[J]. Proceedings of the CSEE, 2013,33(31):99-105 (EI:20135117104004)
[6] Ma Chao, Xiao Xianyong, Yuan Zhijian, Li Changsong. A fuzzy simulation assessment method of occurrence possibility of power grid cascading failures[J]. Proceedings of the CSEE, 2012,32(16):77-84 (EI:20123115297094)
[7] Ma Chao, Xiao Xianyong, Yang Honggeng, Li Huaqiang. Uncertain evaluation measure system and model for power grid catastrophic accident[J]. Proceedings of the CSEE,2012,32(10):118-125(EI:20121915004254)
[8] Xu Peidong, Xiao Xianyong, Wang Ying. Voltage sags frequency evaluation considering the time-varying internal characteristics of bus voltage[J]. Proceedings of the CSEE, 2011,31(10):66-72(EI:20112013990089)
[9] Chen Weidong, Xiao Xianyong, Chen Lipin, Wang Ying. Connection number assessment of voltage sag frequency considering the influence of the reliability parameters[J]. Proceedings of the CSEE, 2010,30(31):35-42 (EI:20104913466510)
[10] Xiao Xianyong, Chen Weidong, Yang Honggeng, Li Huaqiang. Voltage sag frequency assessment under the measure of interval data of customer satisfaction[J]. Proceedings of the CSEE, 2010,30(16):104-110 (EI:20102713051583)
[11] Xiao Xianyong, Chen Wu, Yang Honggeng. Multiuncertainty assessment for failure level of sensitive equipment caused by voltage sag[J]. Proceedings of the CSEE, 2010,30(10):36-42 (EI:20102112946458)
[12] Gong Hualin, Xiao Xiaoyong, Liu Yamei, Yang Honggeng. A method for assessing customer harmonic emission level based on the dominant fluctuation filtering principle[J]. Proceedings of the CSEE, 2010,30(4):22-27 (EI:20101312807984)
[13] Xiao Xianyong, Yang Honggeng, Chen Wu, Li Huaqiang. Fuzzy-random assessment method of equipment sensitivity to voltage sags[J]. Proceedings of the CSEE, 2009,29(34):90-95 (EI:20095312588634)
[14] Xiao Xianyong, Ma Chao, Yang Honggeng, Li Huaqiang. Stochastic estimation of equipment sensitivity to voltage sag based on voltage sag severity index and maximum entropy principle [J]. Proceedings of the CSEE, 2009,29(31):115-121 (EI:20094912531409)
[15] XIAO Xianyong, MA Chao, LI Yong. Voltage sag occurrence frequency assessment caused by line faults using the maximum entropy method[J]. Proceedings of the CSEE, 2009,29(1):87-93 (EI:20090611896865)
[16] Yang Honggeng, Liu Shouliang, Xiao Xianyong, Deng Wujun, Chen Dan. S-transform-based expert system for classification of voltage dips[J]. Proceedings of the CSEE, 2007,27(1):98-104 (EI:20071610557132)
Power system technology
[1] Yang Xiaomei, Luo Yuewan, Xiao Xianyong, Guo Chaoyun. A New Detection Approach of Power Quality Disturbances Based on Adaptive Threshold and Singular Value Decomposition[J]. Power System Technology, 2018,42(10):3136-3144.
[2] Zhang Yin, Xiao Xianyong, Li Changsong. Vulnerability Analysis and Improvement Strategy of Power-Information Coupled Networks Considering Cyber Physical Interaction[J]. Power System Technology, 2018,42(7):2286-2294.
[3] Wang Ying, Luo Daijun, Xiao Xianyong. Review and development tendency of research on 2~150kHz supraharmonics[J]. Power System Technology, 2018,42(2):353-365.
[4] Meng Siyu, Xiao Xianyong, Zhang Yi. A valid data selection method in estimating harmonic impact of individual loads[J]. Power System Technology, 2017,41(6):2006-2011. (EI:20173504100506)
[5] Wang Lihong, Xiao Xianyong, Zhang Yi. Harmonic contribution assessment considering measurement error [J]. Power System Technology, 2016,40(12):3865-3870. (EI:20165103134360)
[6] Lin Fang, Xiao Xianyong, Li Guodong, Wang Ying, Lu Jinbing. Probabilistic fault localization method considering voltage measurement errors[J]. Power System Technology, 2015,39(12):3592-3597 (EI:20155201731092)
[7] Liu Yang, Xiao Xianyong, Zhang Yi, Wang Ying, Li Kaike. Interval-valued intuitionistic fuzzy assessment on response event of voltage-sag-sensitive process and its risk[J]. Power System Technology, 2015,39(5):1398-1404 (EI:20152300925150)
[8] Liu Yang, Xiao Xianyong, Liu Xuna, Wang Ying. optimal configuration of dvr in premium power park considering customers‘ quantitative demand [J]. Power System Technology, 2015,39(3):823-828 (EI:20151300692579)
[9] Qiu Yutao, Xiao Xianyong, Zhao Heng, Lin Fang, Tang Lin. A placement approach of two-stage monitors making both voltage sag and fault position observable [J]. Power System Technology, 2014,38(11):3166-3172 (EI:20144800269889)
[10] Liu Xuna, Xiao Xianyong, Liu Yang, Wang Ying. Hierarchical multi-level fuzzy comprehensive evaluation on risk level of voltage sag during industrial process [J]. Power System Technology, 2014,38(7):1984-1988 (EI:20143017975631)
[11] Wang Yang, Xiao Xianyong, Liu Yang, Liu Bojiang. Classifying features selection and classification based on mahalanobis distance for complex short time power quality disturbances [J]. Power System Technology, 2014,38(4):1064-1069 (EI:20141917700322)
[12] Wang Ying, Xiao Xianyong, Yang Da. Uncertainty assessment on failure accident of voltage-sensitive equipment due to voltage sag by maximum hybrid entropy [J]. Power System Technology, 2012,36(11):159-164 (EI:20125015795637)
[13] Xiao Xianyong, Zhang Wenhai, Wang Ying, Liu Xinyi. Two-dimensional fault line detection based on transient signal features of fault phase[J]. Power System Technology, 2012,36(5):178-184 (EI:20122615178800)
[14] Chen Lipin, Xiao Xianyong, Wang Ying, Yang Honggeng. Assessment on voltage sag frequency considering randomness of protection cooperation[J]. Power System Technology, 2012,36(5):132-138 (EI:20122615178793)
[15] Chen Weidong, Xiao Xianyong, Li Wan, Xu Fangwei. voltage sag sensitivity assessment of sensitive equipments by optimal square approximation[J]. Power System Technology, 2009,33(8):55-59
[16] Chen Wu, Gou Jian, Xiao Xianyong. A stochastic-fuzzy assessment method for voltage sag sensitivity of sensitive equipment [j]. power system technology, 2009,33(6):39-44
[17] Xiao Xianyong, Wang Nan, Liu Yamei. Application of polynomial approximation based single peak spectral lines interpolation algorithm in interharmonic Analysis[J]. Power System Technology, 2008,32(18):57-61
[18] Xiao Xianyong, Wang Xibao, Ji Guanghui. Sensitivity assessment of voltage sag for sensitive equipments based on boxplot and moment estimation[J]. Power System Technology, 2008,32(17):64-68
[19] Wang Nan, Xiao Xianyong, Zeng Songqi, Gu Wei. An interharmonic estimation method based on interpolation chirp z transform[J]. Power System Technology, 2007,31(18):43-47
[20] Xiong Jun, Xiao Xianyong, Deng Wujun, Fu Xiang. Distribution system reliability evaluation based on breadth first search algorithm and zone node row vector algorithm[J]. Power System Technology, 2007,31(9):27-32
[21] Wang Cheng, Xiao Xianyong. A hybrid active power filter with control delay compensation[J]. Power System Technology, 2006,30(7):59-63
[22] Liu Shouliang, Xiao Xianyong, Yang Honggeng. Classification of short duration power quality disturbance based on module time-frequency matrixes similarity by S-transform[J]. Power System Technology, 2006,30(5):67-71
[23] Liu Anding, Xiao Xianyong, Deng Wujun. Detection and analysis of power quality disturbance signal based on discrete cosine transform and wavelet transform[J]. Power System Technology, 2005,29(10):70-74 (EI:2005249158107)
Electric Power Automation Equipment
[1] Wang Ying, Lu Hong, Yang Xia-Mei, Xiao Xianyong. Cable incipient fault identification based on stacked autoencoder and S-transform[J]. Electric Power Automation Equipment,2018,38(8):117-124.
[2] Liu Sujie, Xiao Xianyong, Liu Yamei, Chen Feiyu. Harmonic responsibility allocation method based on complex field multiple linear regression algorithm with IGG weight function[J]. Electric Power Automation Equipment, 2017,37(3):160-166. (EI:20171703605338)
[3] Chen Zhen, Xiao Xianyong, Li Changsong, Zhang Yin, Hu Qingquan. Power system transient stability assessment based on cost-sensitive extreme learning machine [J]. Electric Power Automation Equipment, 2016,36(2):118-123.( EI:20161102091720)
[4] Jin Bo, Xiao Xianyong, Li Changsong. Analysis of cascading failure evolution based on interaction between primary and secondary systems[J]. Electric Power Automation Equipment,2017,37(1):169-175. (EI:20171103431437)
[5] Lin Fang, Xiao Xianyong, Zhang Yi ,Qiu Yutao, Wu Danyu. Optimal monitor allocation and system sag level assessment based on sag information[J]. Electric Power Automation Equipment, 2016,36(5):67-73. (EI: 20162502529734)
[6] Chen Zhen, Xiao Xianyong, Li Changsong, Zhang Yin;Hu Qingquan. Power system transient stability assessment based on cost-sensitive extreme learning machine [J]. Electric Power Automation Equipment,2016,36(2):118-123. (EI: 20161102091720)
[7] Yin Xinglu, Xiao Xianyong, Sun Xiaolu. Complex uncertainty detection and synthesized cloud correction model for abnormal bus load data[J]. Electric Power Automation Equipment,2015,35(6):117-122. (EI:20152901039101)
[8] Yin Xinglu , Xiao Xianyong ,Sun Xiaolu. Bus load forecasting model selection and variable weights combination forecasting based on forecasting effectiveness and Markov chain-cloud model[J]. Electric Power Automation Equipment,2015,35(3):114-119. (EI:20151300692086)
[9] Sun Xiaolu, Xiao Xianyong, Yin Xinglu, Huang Jing. Combination forecasting based on model availability for district network bus loads and its system implementation [J]. Electric Power Automation Equipment,2014,34(12):106-110. (EI: 20145300388134)
[10] Qiu Yutao, Xiao Xianyong, Xiong Qian, Zhao Heng, Li Zhong. Optimal sag monitor placement based on critical impedance and breadth first-condition search [J]. Electric Power Automation Equipment,2014,34(10):138-143. (EI:20144500153387)
[11] Li Dandan, Xiao Xianyong, Liu Yang, Li Tieniu, Liu Xuna. Voltage sag mitigation scheme using protection optimization with process immunity time[J]. Electric Power Automation Equipment,2014,34(9):95-100. (EI:20144100087572)
[12] Chen Lipin, Xiao Xianyong, Zhang Wenhai. Optimal allocation of voltage-sag monitors considering disturbance-source locating[J]. Electric Power Automation Equipment, 2014,34(2):79-84+90. (EI: 20141017430410)
[13] Yang Dal, Xiao Xianyong, Wang Ying. Assessment of equipment invalidation due to voltage sags considering uncertainties of failure and severity[J]. Electric Power Automation Equipment, 2013,33(10):107-111+117 (EI: 20135217144350)
[14] Zhang Wenhai, Xiao Xianyong, Wang Ying. Single-phase-to-ground fault location based on transient fault signal and its attenuation character for distribution network [J]. Electric Power Automation Equipment, 2013,33(3):46-52 (EI: 20131416174594)
[15] Zheng Tianwen, Xiao Xianyong, Zhang Wenhai, Yang Honggeng. Fault location considering nonlinear profile of bus voltage sag for distribution system[J]. Electric Power Automation Equipment,2012,32(11):115-120 (EI: 20130315910439)
[16] Han Rui, Zheng Jinghong, Zhu Shouzhen, Sheng Chao, Zhang Junfeng, Xiao Xianyong. Step identification of synchronous generator parameters based on sensitivity analysis[J]. Electric Power Automation Equipment, 2012,32(5):74-80 (EI: 20122615178756)
[17] Zhao Hong, Xiao Xianyong, Li Zhengguang, Wang Ying. Estimation of maximum interval hybrid entropy of sensitive equipment failure rate due to voltage sag[J]. Electric Power Automation Equipment, 2011,31(10):70-75 (EI: 20114614524785)
[18] Xiao Xianyong, Li Zhenggnang, Chen Wu, Yang Honggeng. Voltage sag assessment considering fault impedance and cascaded transformers[J]. Electric Power Automation Equipment,2010,30(2):43-47+52 (EI: 20101712896522)
[19] Xiao Xianyong, Xu Peidong, Chen Weidong, Yang Honggeng. Interval evaluation of voltage sag magnitude and frequency in distribution system [J]. Electric Power Automation Equipment,2009,29(9):7-10+16 (EI: 20094012357013)
[20] Zhang Jing, Xiao Xianyong. based power quality data sharing model and cross-platform data exchange [J]. Electric Power Automation Equipment,2007,27(12):88-92 (EI: 20080111004807)
[21] Long Yun, Xiao Xianyong. Research of dynamic voltage sag corrector[J]. Electric Power Automation Equipment,2006,26(6):33-35 (EI: 20064110165709)
[22] Xiao Xianyong, Yang Honggeng, Liu Junyong. Issues and technology assessment on power quality Part 7: Power quality issues on power market[J]. Electric Power Automation Equipment,2004,24(4):1-4
[23] Yang Honggeng, Xiao Xianyon, Liu Junyong. Issues and technology assessment on power quality Part 6: Advanced of power quality control technology[J]. Electric Power Automation Equipment, 2004,24(3):1-5
[24] Liu Junyong, Yang Honggeng, Xiao Xianyong. Issues and technology assessment on power quality Part 5: Power quality monitoring and data management[J]. Electric Power Automation Equipment,2004,24(2):1-4
[25] Yang Honggeng, Xiao Xianyong, Liu Junyong. Issues and technology assessment on power quality Part 4: Measurement and analysis of voltage fluctuation and flicker [J]. Electric Power Automation Equipment,2004,24(1):1-4
[26] Yang Honggeng, Xiao Xianyong, Liu Junyong. Issues and technology assessment on power quality Part 3: Voltage sags in power system[J]. Electric Power Automation Equipment,2003,23(12):1-4
[27] Yang Honggeng, Xiao Xianyong, Liu Junyong. Issues and technology assessment on power quality Part 2: Measurement and analysis for harmonic in supply network[J]. Electric Power Automation Equipment,2003,23(11):1-4
[28] Yang Honggeng, Xiao Xianyong, Liu Junyong. Issues and technology assessment on power quality Part 1: General concepts on power quality[J].Electric Power Automation Equipment,2003,23(10):1-4
Automation of Electric Power Systems
[1] Bai Zhixuan, Xiao Xianyong, Zhang Yi, Wang Ying, Chen Feiyu. Identification Method Of Harmonic Source Considering Harmonic Apparent Power [J].Automation of electric power systems,2017,41(8):11-15. (EI: 20172403762306)
[2] Zhang Yin, Xiao Xianyong, Chen Jing, Li Changsong, Chen Zhen. Impact of Information Network Damage on Overload-based Cascading Failures of Power Grid [J]. Automation of electric power systems,2017,41(13):14-21 (EI:20173204021726)
[3] Li Changsong, Chen Yunzhu, Xiao Xianyong, Ma Yuanqian. Quantitative Analysis on Insurance Mechanisms for Voltage Sag[J]. Automation of electric power systems, 2017,41(14):99-104. (EI:20173504083765)
[4] Zhang Yi, Zou Zhice, Lin Yan, Huang Daoshan, Xiao Xianyong, Lin Fang. Rotor Voltage Dynamic Characteristics of Doubly-fed Induction Generator with Phase Angle Jump[J]. Automation of electric power systems, 2016,40(17):129-136. (EI:20163802821883)
Advanced Engineering Sciences (Former name: Journal of Sichuan University(Engineering Science Edition))
[1] Zhang Yin, Xiao Xianyong, Li Changsong, Hu Qingquan, Pan Jiahe. A Fast Simulation Method of Distribution Network Loop Closing Based on Compensation Method and Nodal Equation [J]. Journal of Sichuan University(Engineering Science Edition), 2015,47(6):150-156. (EI: 20155001667150)
[2] Chen Lipin, Xiao Xianyong, Wang Ying, Liu Xuna. Stochastic Evaluation of Voltage Sag Considering the Time Characteristic of Distance Protection in Meshed Network [J]. Journal of Sichuan University(Engineering Science Edition), 2013,45(3):112-119.(EI: 20132516429514)
[3] Wang Ying, Yang Da, Liu Xuna, Chen Lipin, Xiao Xianyong. Lattice Order Decision-making Based Evaluation Method of Sensitive Equipment Failure Caused by Voltage Sag [J]. Journal of Sichuan University(Engineering Science Edition), 2013,45(3):120-126(EI: 20132516429515)
[4] Xiao Xianyong. The fuzzy regulation method research for electric power system node voltage[J]. Journal of Sichuan University(Engineering Science Edition), 2000,32 (1):55-58
[5] Ma Chao, Xiao Xianyong, Yang Honggeng. United Uncertainty Assessment Method of Power System Catastrophic Accidents[J]. Journal of Sichuan University(Engineering Science Edition), 2011,43(6):173-180.(EI: 20115114614707)
[6] He Jinding, Xiao Xianyong.Data processing method in power quality monitoring system[J]. Journal of Sichuan University(Engineering Science Edition), 2004,36(2):98-101.(EI:2004278252609 )
[7] Xu Fangwei, Yang Honggeng, Xiao Xianyong, Zhao Jun. Classification of Short Duration Disturbances Based on Similarity of Varying Scale Benchmark [J]. Journal of Sichuan University(Engineering Science Edition), 2009,41(6):226-230.
[8] Zhang Wenhai, Xiao Xianyong, Fan Kanglin. Single-line-to-ground fault detection using more criterions in distribution system based on voltage variation[J]. Journal of Sichuan University(Engineering Science Edition), 2014,46(3):129-135.(EI: 20142317795798 )
[9] Yuan Mingyou, Xiao Xianyong, Yang Honggeng, Zeng Liyuan, Yang Bing. The grey model of middle-long term load forecasting and its applications in the power supplying systems[J]. Journal of Sichuan University(Engineering Science Edition),2002,34(4):121-123.
[10] Xiao Xianyong, Ma Chao, Yang Honggeng. Sensitivity Uncertainty Assessment of Sensitive Equipment Due to Voltage Sag Based on Maximum Entropy Principle[J]. Journal of Sichuan University(Engineering Science Edition),2009,41(5):243-248.(EI: 20094512432588)
[11] Xiao Xianyong. Arresting the low frequency power oscillation of AC/DC Inter-link system by allocating power system stabilizer[J]. Journal of Sichuan University(Engineering Science Edition), 2000,32(2):85-87.(EI: 2000115399910 )
[12] Xiao Xianyong. The subjoining fuzzy-DC control advancing the transient stability of AC/DC system[J]. Journal of Sichuan University(Engineering Science Edition), 2000,32(1):59-61.(EI: 2000115399872 )
High Voltage Engineering
[1] Liao Xuejing, Xiao Xianyong, Tang Qihong, Huang Xiaojia, Wang Ying. Fuzzy identification method of transient disturbance on transmission line using wavelet energy eigenvector[J]. High Voltage Engineering, 2009,35(10):2486-2491. (EI: 20101512840502)
[2] Wu Hao, Xiao Xianyong. Lightning strike location of transmission line based on wavelet transform and traveling wave theory[J]. High Voltage Engineering,2007,33(1):86-90. (EI: 20071310514272)
[3] Xiao Xianyong, Li Feng, Deng Wujun. Identification method of lightning stroke and short-circuit faults using s-transformed characteristics[J]. High Voltage Engineering,2009,35(4):817-822. (EI: 20092212102368)
[4] Xiao Xianyong, Li Feng, Deng Wujun. Characteristics identification of voltage sag caused by lightning stroke and short-circuit faults[J]. High Voltage Engineering,2009,35(2):309-314. (EI: 20091512023144)
[5] Xiao Xianyong, Li Wan, Ma Chao, Yang Honggeng. Assessment of voltage sag frequency influenced by uncertain influential factors of power system[J]. High Voltage Engineering,2009,35(7):1600-1606. (EI: 20093912337743)
[6] Wu Hao, Xiao Xianyong, Deng Wujun. Identification of lightning strike and fault in the traveling wave location of transmission line [J]. High Voltage Engineering,2007,33(6):63-67. (EI: 20073110727285)
[7] Wu Hao, Xiao Xianyong, Shen Ruijia. Lightning strike and fault identification by the wavelet energy spectrum and neural network method[J]. High Voltage Engineering,2007,33(10):64-68. (EI: 20074810951844)
Power System Protection and Control (former name: Relay)
[1] Liu Anding, Xiao Xianyong, Deng Wujun. A new method for detecting short duration disturbance of power quality [J]. Relay,2005,33(8):27-30.
[2] Liu Shouliang, Xiao Xianyong, Yang Honggeng. Detection and classification of short duration power quality disturbances based on time-frequency contour and amplitude envelope of S transform [J]. Relay,2005,33(22):49-52.
[3] Xiong Jun, Xiao Xianyong.A method of reliability cost assessment in distribution system based on Semi-Markov process [J]. Relay,2006,34(12):57-62.
[4] Zhang Longyue, Xiao Xianyong, Ma Chao, Feng Gang, Pu Shouwen. Prediction of time and probability of line tree-related fault caused by power flow transferring [J]. Power System Protection and Control,2013,41(13):64-70.
[5] Xiong Xiaoyi, Xiao Xianyong, Zuo Jinwei, Huang Yong, Zhao Heng. Electrical shock feature detection method based on improved approximate entropy[J]. Power System Protection and Control ,2017,45(13):27-33.
[6] Xu Peidong, Xiao Xianyong, Wang Ying. Voltage sags frequency stochastic assessment based on two-point estimate method [J]. Power System Protection and Control ,2011,39(9):1-6. (EI: 20112714111955 )
[7] Huang Jing, Xiao Xianyong Liu Xuna. Short-term load forecasting based on manifold learning and locally linear embedding theory [J]. Power System Protection and Control ,2012,40(7):25-30. (EI: 20121714972071)
[8] Gong Hualin, Xiao Xianyong. Application of non-linearity degree method in harmonic source detection in distribution network[J]. Power System Protection and Control ,2010,38(8):30-34. (EI: 20102212974439)
[9] Wang Lihong, Xiao Xianyong, Zhang Yi, Wang Ying, Chen Feiyu. A distortion power based assessment index and method of harmonic contribution of nonlinear loads[J]. Power System Protection and Control ,2017,45(9):41-47.
[10] Cui Zhen, Xiao Xianyong, Ma Chao, Li Huaqiang. Assessment method of catastrophic accident in power system based on electrical network dissection and uncertain measure[J]. Power System Protection and Control ,2011,39 (20):30-37. (EI: 20114514504050)
[11] Chen Ping, Yang Honggeng, Xiao Xianyong. Sensitivity evaluation of sensitive equipment based on fuzzy failure criterion due to voltage sags[J]. Power System Protection and Control ,2010,38 (6):8-11+17. (EI: 20101912918227)
[12] Sun Xiaolu, Ma Jing, Li Yuanbo, Xiao Xianyong. Equipment sensitivity evaluation based on cloud model due to voltage sags [J]. Power System Protection and Control ,2011,39 (4):100-104. (EI: 20111613922355)
[13] Xiong Xiaoyi, Xiao Xianyong, Zhao Heng. Adaptive algotithm based electrical shock current detection method [J]. Power System Protection and Control ,2017,45 (4):139-144.
[14] Jin Bo, Xiao Xianyong, Chen Jing, Li Changsong, Zhang Yin. A method of risk assessment considering protection failures and dynamic equilibrium of power grid[J]. Power System Protection and Control ,2016,44 (8):1-7.
[15] Chen LiPin, Xiao Xiaoyong, Zhang Zhi, Wang Ying. Voltage sags frequency assessment considering the time characteristic of protection system [J]. Power System Protection and Control ,2013,41 (2):113-119. (EI: 20134116829266)
[16] Li Zhengguang, Gui Xianming, Xiao Xianyong. Interval failure probability assessment of sensitive load due to voltage sags [J]. Power System Protection and Control ,2010,38 (17):37-42. (EI: 20104113292949)
[17] Li Wan, Gui Xianming, Xiao Xianyong. Non-additive measure and assessment method of the failure possibility of sensitive equipment due to voltage sag [J]. Power System Protection and Control ,2010,38 (19):96-101. (EI: 20104513372440)
[18] Liu Xuna, Xiao Xianyong, Xu Fangwei, Wei Xiaotian, Yang Jinggang. Credibility measure and assessment method of sensitive equipment voltage sag severity [J]. Power System Protection and Control ,2013,41 (1):190-196. (EI: 20130115865251)
[19] Liu Xuna, Xiao Xianyong, Wang Ying, Li Huaqiang, Yang Honggeng. The study of programming model and method of customer friendly power network [J]. Power System Protection and Control ,2010,38 (23):196-202. (EI: 20110313592144)
Conference Papers
International
Since 2011
[1] Yang Da, Wang Ying, Xiao Xianyong. Equipment uncertainty assessment due to voltage sags considering the uncertainties of invalidation event and its severity. 2013 International Conference on Mechatronics and Industrial Informatics, ICMII 2013, March 13, 2013 - March 14, 2013. Trans Tech Publications Ltd,2013:1347-1350.
[2] Feng Jing, Xiao Xianyong, Ma Chao. Synthetic risk assessment of catastrophic event in power system based on uncertainty. 2nd International Conference on Energy, Environment and Sustainable Development, EESD 2012, October 12, 2012 - October 14, 2012. Trans Tech Publications,2013:796-801.
[3] Zeng Zhuolin, Xiao Xianyong, Wang Ying. Maximum hybrid entropy assessment of equipment failure probability caused by voltage sags. 2nd International Conference on Energy, Environment and Sustainable Development, EESD 2012, October 12, 2012 - October 14, 2012. Trans Tech Publications,2013:574-579.
[4] Li Hao, Xiao Xianyong, Wang Ying. Sensitive equipment failure assessment caused by voltage sags using interval probability. 2nd International Conference on Materials and Products Manufacturing Technology, ICMPMT 2012, September 22, 2012 - September 23, 2012. Trans Tech Publications,2013:806-810.
[5] Chen Lipin, Xiao Xianyong, Wang Ying, Jiao Jian. Impacts of protection cooperation on voltage sag frequency and sensitive equipment trips.2nd International Conference on Materials and Products Manufacturing Technology, ICMPMT 2012, September 22, 2012 - September 23, 2012. Trans Tech Publications, 2013:819-823.
[6] Yang Wenwu, Xu Wei, Xiao Xianyong. Torque ripple reduction strategy of model based predictive torque control for doubly salient permanent magnet synchronous machines. 4th Annual IEEE Energy Conversion Congress and Exposition, ECCE 2012, September 15, 2012 - September 20, 2012. IEEE Computer Society,2012:113-120.
[7] Yang Da, Wang Ying, Xiao Xianyong, Xu Wei. The uncertainty assessment of sensitive equipment voltage sags ride-through ability based on maximum hybrid entropy. 4th Annual IEEE Energy Conversion Congress and Exposition, ECCE 2012, September 15, 2012 - September 20, 2012. IEEE Computer Society,2012:2022-2029.
[8] Chen Lipin, Xiao Xianyong. Voltage sags frequency assessment considering the coordination of protection system. 2012 IEEE 15th International Conference on Harmonics and Quality of Power, ICHQP 2012, June 17, 2012 - June 20, 2012. IEEE Computer Society, 2012:932-935.
[9] Xu Wei, Zhang Yunhong, Zeng Cengbi, Xiao Xianyong. Rotor field oriented control of linear induction machine based on fuzzy self-adapting PI controller. 21st IEEE International Symposium on Industrial Electronics, ISIE 2012, May 28, 2012 - May 31, 2012. Institute of Electrical and Electronics Engineers Inc,2012:731-736.
[10] Xu Fangwei, Zhang Yin, Yang Honggeng, Xiao Xianyong. Classification for voltage sags based on generalized S-transform. 2012 9th International Conference on Fuzzy Systems and Knowledge Discovery, FSKD 2012, May 29, 2012 - May 31, 2012. IEEE Computer Society,2012:1760-1763.
[11] Xu Wei, Wang Ying, Xiao Xianyong. Analytical interval assessment method of voltage sag frequency considering the satisfaction degree of sensitive customer. 37th Annual Conference of the IEEE Industrial Electronics Society, IECON 2011, November 7, 2011 - November 10, 2011. IEEE Computer Society,2011:837-842.
[12] Wang Ying, Xu Wei, Yu Xinghuo, Xiao Xianyong. An interval probability maximum hybrid entropy assessment method of equipment sensitivity due to voltage sag. 37th Annual Conference of the IEEE Industrial Electronics Society, IECON 2011, November 7, 2011 - November 10, 2011. IEEE Computer Society,2011:825-830.
[13] Zhang Wenhai, Yang Jianwen, Xiao Xianyong, Wang Ying. Two-dimension fault line selection method based on transient signal features of fault phase. 2011 International Conference on Energy, Environment and Sustainable Development, ICEESD 2011, October 21, 2011 - October 23, 2011. Trans Tech Publications,2012:1289-1292.
[14] Zheng Tianwen, Yang Jianwen, Xiao Xianyong, Wang Ying. Fault location in distribution systems considering the non-liner profile characteristic of voltage sag on the bus. 2011 International Conference on Energy, Environment and Sustainable Development, ICEESD 2011, October 21, 2011 - October 23, 2011. Trans Tech Publications,2012:1088-1092.
[15] Zheng Tianwen, Xiao Xianyong, Wang Ying,Zheng Wenhai. Distribution system fault location considering voltage sag characteristics. 2011 Asia-Pacific Power and Energy Engineering Conference, APPEEC 2011 - Proceedings. IEEE Computer Society,2011.
[16] Zhang Wenhai, Xiao Xianyong, Wang Ying, Zheng Tianwen, Zhao Hong, Wang Henggui. Charging-transient based SLG fault location in neutral-unearthed distribution system. 2011 Asia-Pacific Power and Energy Engineering Conference, APPEEC 2011 – Proceedings. IEEE Computer Society,2011.
[17] Zhang Longyue, Ding Lijie, Xiao xianyong, Ma Chao, Feng Jing. Risk assessment of power system cascading failure considering hidden failures and violation of temperature .2011 International Conference on Energy, Environment and Sustainable Development, ICEESD 2011, October 21, 2011 - October 23, 2011. Trans Tech Publications, 2012:1083-1087.
From 2005 to 2010
[1] Wang Ying, Huang Yong, Ma Chao, Xiao Xianyong. Impersonal probability assessment of equipment trip probability due to voltage sag. Asia-Pacific Power and Energy Engineering Conference, APPEEC 2010, March 28, 2010 - March 31, 2010. IEEE Computer Society,2010.
[2] Yang Wenwu, Xu Peidong, Xiao Xianyong. Interval evaluation of voltage sag magnitude and frequency in distribution system. Asia-Pacific Power and Energy Engineering Conference, APPEEC 2010, March 28, 2010 - March 31, 2010. IEEE Computer Society,2010.
[3] Xiao Xianyong, Liu Xuna. Stochastic estimation trip frequency of sensitive equipment due to voltage sag. APCCAS 2008 - 2008 IEEE Asia Pacific Conference on Circuits and Systems, November 30, 2008 - December 3, 2008.Institute of Electrical and Electronics Engineers Inc,2008:364-367
[4] Xiao Xianyong, Li Wan, Yang Honggeng. SDPQ classification based on maximum similarity principle of S-transform MTFM. APCCAS 2008 - 2008 IEEE Asia Pacific Conference on Circuits and Systems, November 30, 2008 - December 3, 2008. Institute of Electrical and Electronics Engineers Inc,2008:1880-1883.
[5] Liu shouliang, Peng Yong, Xiao Xianyong, Chen Dan. Identification of power quality disturbances based on singular value decomposition of S-transform time-frequency matrixes. 2006 China International Conference on Electricity Distribution, CICED 2006, September 17, 2006 - September 20, 2006. Institution of Engineering and Technology,2006:85-88
[6] Xiao Xianyong, Yang Honggeng, Lia Anding. Short time disturbance detection using DCT analysis in distribution system. Eighteenth International Conference and Exhibition on Electricity Distribution, CIRED 2005, Technical Reports - Session 1: Network Components, June 6, 2005 - June 9, 2005. Institution of Engineering and Technology,2005:223-236
National
Since 2011
[1] Liu Xuna, Xiao Xianyong, Liu Yang, Li Tieniu. Optimization method of technical solutions in premium power park based on process immunity time[C]. 5th seminar on power quality and flexible transmission technology,2014:414-420.
[2] Chen Zongbi, Xiao Xianyong, Xiang Jianbing, Zhang Wenhai. An improving estimation method of system harmonic impedance for harmonic responsibility division at the point of common coupling [C]. 5th seminar on power quality and flexible transmission technology,2014:159-163.
[3] Qiu Yutao, Xiao Xianyong, Xiong Qian, Lin Fang, Tang Lin. Two—stage placement of voltage sag monitor based on sag state and disturbance source observation[C]. 5th seminar on power quality and flexible transmission technology,2014:152-158.
[4] Chen Lipin, Li Hao, Xiao Xianyong. Stochastic estimation of voltage sags frequency considering protection configuration [C]. 4th seminar on power quality and flexible transmission technology,2012:80-84.
[5] Zhang Yin,Xiao Xianyong,Xu Fangwei. Fundamental frequency detection method of short term power quality disturbances based on window width optimized s—transform [C]. 4th seminar on power quality and flexible transmission technology,2012:85-89.
[6] Chen Lipin, Xiao Xianyong, Zhang Zhi, Wang Ying. Voltage sags frequency assessment considering the time characteristic of protection system[C]. 2012 China smart grid academic seminar,2012:113-119.
From 2005 to 2010
[1] Cui Zhen, Xiao Xianyong. A network catastrophic failure model based on network topology and network operation state [C] 2010 annual conference of Chinese society of electrical engineering.2010:973-979.
[2] Liu Xuna, Xiao Xianyong, Wang Ying. The programming method of customer friendly distribution systems considered direct and indirect cost [C]. 11th youth academic conference of Chinese society of electrical engineering ,2010:466-472.
[3] Xu Peidong, Xiao Xianyong, Wang Ying. Voltage sags frequency stochastic assessment based on two-point estimate method [C]. 11th youth academic conference of Chinese society of electrical engineering, 2010:511-518.
[4] Zhang Wenhai, Xiao Xianyong, Wang Ying. Charge transients fault location method in neutral-unearthed system [C] 2010 annual conference of Chinese society of electrical engineering,2010:984-988.
[5] Liu Xuna, Wang Ying, Xiao Xianyong. Promote power demand response by modern smart grid [C]. 2010 annual conference of Chinese society of electrical engineering,2010:1039-1043.
[6] Zheng Tianwen, Xiao Xianyong, Wang Ying. Single-end fault location on distribution system based on voltage sags of the bus [C]. 2010 annual conference of Chinese society of electrical engineering,2010:992-996.
[7] Chen Wu, Wang Ying, Xiao Xianyong. Policies &programs to encourage end-use energy efficiency of smart distribution grid [C]. 2010 annual conference of Chinese society of electrical engineering,2010:1013-1018.
[8] Li Zhengguang, Xiao Xianyong, Wang Ying. Assessment of equipment sensitivity due to voltage sags considering interval tolerance level [C]. 11th youth academic conference of Chinese society of electrical engineering,2010:482-487.
[9] Wang Ying, Zheng Tianwen, Xiao Xianyong, Zhang Wenhai. Distribution system fault location based on voltage sag characteristics [C]. 11th youth academic conference of Chinese society of electrical engineering,2010:461-465.
[10] He Meimei, Li Huaqiang, Xiao Xianyong, Chen Jing, He Zhenning. Islanding detection scheme evaluation for distributed generation based on wavelet fast algorithm [C]. 11th youth academic conference of Chinese society of electrical engineering.2010:234-240.
[11] Li Feng, Xiao Xianyong. Research of voltage sag characteristic caused by lightning strike and short-circuit fault [C].2008 annual conference of Chinese society of electrical engineering ,2008:1-4.
[12] Ma Chao, Xiao Xianyong. The objective assessment method of voltage sags frequency at power system busses [C]. 2008 annual conference of Chinese society of electrical engineering ,2008:1-6.
[13] Xu Peidong, Xiao Xianyong. A novel buses optimization method based on y-a transform for distribution systems [C]. 9th academic annual conference of sichuan electrical technical society,2008:189-192.
[14] Xu Fangwei, Yang Honggeng, Xiao Xianyong. Classification of power quality short duration disturbance based on similarity of Benchmark of Module Time-Frequency Matrixes by S-Transform [C]. 2008 national doctoral student academic BBS - electrical engineering,2008:591-598.
[15] Xiao Xianyong, Ma Chao, Yang Honggeng, Li Huaqiang. Assessment method of equipment sensitivity due to voltage sag based on severity of voltage sag and maximum entropy principle [C]. 2008 annual conference of Chinese society of electrical engineering ,2008:1-5.
[16] Li yuanbo, tang qihong, xiao xianyong. Fuzzy identification of fault-,unfault-lightning stroke and short circuit fault on transmission line [C]. 2008 academic annual conference of Chinese society of electrical engineering and power system committee,2008:299-305.
[17] Xiao Xianyong, Yang Honggeng, Ma Chao. Voltage sags frequency assessment based on the randomicity of transmission line fault [C] .9th academic annual conference of sichuan electrical technical society,2008:180-184.
[18] Liu Yamei, Xiao Xianyong, Wang Nan, Yang Honggeng. Interharmonic Estimation Based on Chirp Z Transform and Multi.spectral [C] 9th academic annual conference of sichuan electrical technical society,2008:185-188.
