Professor Deputy Dean, Institute of Engineering Technology, University of Science & Technology Beijing

Deputy Director, National Engineering Research Center for Advanced Rolling Technology

OFFICE 602 Keji Building

PHONE 0086-10-62332598-6602, 0086-10-82375025

FAX  0086-10-62332947

EMAIL  zhangyj@ustb.edu.cn

RESEARCH INTERESTS

Advanced automatic control algorithms and industrial applications; Knowledge modeling and optimization; Pattern recognition and intelligent control; Power electronics and electrical drives

EDUCATION

1991.09-1995.06 Bachelor in School of Automation, University of Science & Technology Beijing

1995.08-1999.12 Research Associate in Institute of Automatic Control, University of Science & Technology Beijing

2000.01-2010.01 Master/Ph.D. in School of Automation, University of Science & Technology Beijing

2006.07-2014.06 Associate Professor/Master Supervisor in National Engineering Research Center for Advanced Rolling Technology, University of Science & Technology Beijing

2014.07-2015.01 Visiting Scholar/Master Supervisor in College of Engineering, University of Wollongong, Australia

2015.02-now Professor/Ph.D. Supervisor in National Engineering Research Center for Advanced Rolling Technology, University of Science & Technology Beijing

AWARDS & HONORS

1. The 1^st Class of the China Iron and Steel Industry Association and China Metals Society Metallurgical Prize for Science and Technology in 2008.

2. The 1^st Class of the China Nonferrous Industry Association Prize for Progress in Science and Technology in 2016.

3. The 1^st Class of the China Nonferrous Industry Association Prize for Progress in Science and Technology in 2018.

4. The 3^rd Class of the Beijing Science and Technology Award in 2006.

RESEARCH PROJECTS

1. National Natural Science Foundation of China, dynamic cooperative predictive control of dual PWM variable frequency speed control system with multi-scale system energy optimization

2. Guangxi Autonomous Region Science and Technology Plan Project, Energy-based Intelligent Control System for Hot Rolling Production Line and Process Energy Saving Optimization

3. Central University's basic research business fee project, full-process energy medium monitoring optimization and early warning research of hot rolling production line

4. Central University's basic research business fee project, fiber-optic sensing signal analysis and pattern recognition for key areas of security

5. Ministry of Industry and Information Technology intelligent manufacturing integrated standardization and new model application project, high-end wire material process intelligent manufacturing new mode application

6. Innovative method special project of Ministry of Science and Technology, innovative method and application of quality control in steel service manufacturing based on big data

7. Twelfth Five-Year Science and Technology Support Program, Key Equipment Development of High-end Metallurgical Mill and Main Drive System Integration and Application Demonstration

8. Beijing Science and Technology Commission major science and technology project, automation control system technology integration

9. National Natural Science Foundation of China, online detection and identification method for surface defects of hot rolled strip

10. Factory Association Research Project, Development of Key Technologies for Variable Frequency Control of Coiler in Hot Rolling Production Line

11. Factory Association Research Project, intelligent overcurrent protection device for preventing inverter subversion and control method thereof

12. Factory Association Research Project, key control software development for hot rolling strip production line automation system

13. Factory Association Research Project, development of machine tool loading and unloading truss test robot system

14. Factory Association Research Project, Research on Unattended Armored Integrated Water Injection Device

15. Factory Association Research Project, integrated oil collection multi-way valve device and control system technology

16. Factory Association Project, Yinhai 3300mm+2850mm 1+4 aluminum hot rolling three electric control system

17. Factory Association Project, Juike 1850mm 1+4 aluminum hot rolling three electric control system

18. Factory Association Project, Yongjie 1850mm 1+3 aluminum hot rolling three electric control system

19. Factory Association Project, transformation of R2/R3 main drive system of WISCO hot rolling 1700mm production line

20. Factory Association Project, Chongqing Electric Steel Co., Ltd. 3100mm Wide and Heavy Plate Plant

21. Factory Association Project, 1#, 2#, 3# Normalized Furnace Three Electric System of 3500mm Medium and Heavy Plate Production Line of Handan Iron and Steel Co., Ltd.

22. Factory Association Project, Rizhao Iron and Steel Co., Ltd. 1580mm hot continuous rolling production line full line AC/DC drive system

23. Factory Association Project, 30-70DB Variable Frequency Drilling Machine Automation System in Jilin Oilfield

24. Factory association project, Lingyuan 900mm medium-band computer system and main and auxiliary transmission transformation

25. Factory Association Project, AC Variable Frequency Drive System of Rolling Mill Zone of 3500mm Medium and Heavy Plate Production Line of Handan Iron and Steel Group Co., Ltd.

26. Factory Association Project, Changzhi H-beam main drive electronic control system and harmonic filter system

PATENTS & PUBLICATIONS

1. Li W, Zhang Y J, Xiao X. Model prediction of grid-connected inverter control based on real-time inductance identification[J]. Transactions of China Electrotechnical Society, 2018(1):3450-3460.

2. Miao L, Zhang Y J, Tong C N, et al. Efficiency Optimization of Permanent Magnet Synchronous Generator Based on Model Predictive Direct Torque Control[J]. Transactions of China Electrotechnical Society, 2018(1):3535-3546.

3. Xiao X, Wang J X, Zhang Y J, et al. An optimized dual-motor master-slave model torque prediction control strategy[J]. Transactions of China Electrotechnical Society, 2018, 33(24):86-96.

4. Zhang Y J, Zhao J L, Zhang F, Wang J. Approximate finite-time control for a class of uncertain nonlinear systems with dynamic ompensation[J]. International Journal of Robust and Nonlinear Control, 2017, 27(18):4296-4311.  

5. Song X, Zhang Y J, Ning B F, et al. Non-intrusive current measurement correction method for multi-core cable based on two-step method[J]. Journal of University of Science and Technology Beijing, 2017(12): 1898-1906.

6. Chen T Z, Zhang Y J, Xiao X, et al. A Virtual Rectifier Vector Reconstruction Method for PWM Rectifier[J]. Journal of Engineering Science, 2016(2):283-290.

7. Xiao X, Zhang Y J, Wang J, Du H P. New adaptive sliding-mode observer design for sensorless control of PMSM in electric vehicle drive system[J], International Journal on Smart Sensing and Intelligent Systems, 2016, 9(1):377-396.

8. Xiao X, Zhang Y J, Wang J, et al. Model Predictive Control of Dual PWM Inverter System Based on System Level Power Balance[J]. Proceedings of the CSEE, 2016, 36(21):5909-5917.

9. Xiao X, Zhang Y J, Wang J, Du H. An Improved Model Predictive Control Scheme for the PWM Rectifier-Inverter System Based on Power-Balancing Mechanism[J], IEEE Transactions on Industrial Electronics, 2016, 63(8):5197-5208.

10. Xiao X, Zhang Y J, Wang J, Li H D. Adaptive flux-mode observation of virtual flux linkage of voltage-free sensing PWM rectifier[J]. Transactions of China Electrotechnical Society, 2015, 30(12): 152-161.

11. Zhang Y J; Wang W; Zheng S S. Three-level SVPWM harmonic control method based on Logistic chaotic map[J]. Journal of Engineering Science, 2016, 37(1):223-229.

12. Li Y, Wang J, Zhang Y J. Quality Analysis Method of Hot Rolled Strip Based on Data Mining[J]. Journal of University of Science and Technology Beijing, 2015(S1):56-64.

13. Zhang Y J, Zhang Y K, Ma R M. LADRC-based Electromechanical Oscillation Suppression Method for Main Drive System[J]. Systems Engineering - Theory & Practice, 2015, 35(4):1074-1080.

14. Xiao X, Zhang Y J, Wang J, et al. Research on Detection Method of Network Side Voltage Anomaly Based on Tracking Differentiator[J]. Journal of University of Science and Technology Beijing, 2015(S1): 108-115.

15. Li Y, Wang J, Zhang Y J. A Self-tuning Method for Linear Active Disturbance Rejection Controller[J]. Journal of Beijing University of Science and Technology, 2015, 37(11):1520-1527.

16. Zhang Y K, Zhang Y J, Ma R M. Research on the instability model of the main drive electromechanical system of rolling mill and its anti-disturbance control[J]. Journal of University of Science and Technology Beijing, 2015(S1):116-119.

17. Zhang Y K, Zhang Y J, Wang J, et al. Research on Velocity Feedback Mechanism Based on Pulse Width Prediction[J]. Transactions of China Electrotechnical Society, 2014, 29(10):81-89.

18. Zhang Y K, Zhang Y J, Wang J. Application of MC-NESO in Fault Diagnosis and Fault Tolerant Control of Rolling Mill Main Drive[J]. Metallurgical Industry, 2014(6):86-89.

19. Wang Z, Wang J, Zhang Y J, et al. Automatic disturbance rejection control of hydraulic servo position system on both sides of rolling mill[J]. Control Theory and Applications, 2013, 30(12):1602-1608.

20. Xiao X, Zhang Y J, Wang J, et al. Improved virtual flux observer based on orthogonal feedback compensation suitable for direct power control application[C], 2014 26th Chinese Control and Decision Conference(CCDC2014), 2014:2657-2662.

21. Zheng S S, Zhang Y J, Zhang Y K. A chaotic carrier frequency SVPWM strategy to reduce the harmonic distortion[C], 2013 International Symposium on Vehicle, Mechanical, and Electrical Engineering(ISVMEE 2013), 2014:1577-1581.

22. Zhang Y J, Yao Z C, Wang J, et al. A Capacitor Voltage Balance Control Strategy for Cascaded H-Bridge Type Static Reactive Generator[J]. Proceedings of the CSEE, 2014, 34(27):4621-4628.

23. Xiao X, Zhang Y J, Wang J, et al. Improved Virtual Flux Observer Based on Orthogonal Feedback Compensation Suitable for Direct Power Control Application[C], Control and Decision Conference, IEEE, 2014:2657-2662.

24. Wang Z, Wang J, Zhang Y J, et al. Automatic disturbance rejection control of hydraulic servo position system on both sides of rolling mill[J]. Control Theory and Applications, 2013, 30(12):1602-1608.

25. Zhang Y J, Hao C H. Generalized Predictive Control of Asynchronous Motors with Load Observation[J]. Journal of University of Science and Technology Beijing, 2012, 34(12):1458-1463.

26. Zhang Y J, Sun Y F, Wang J. Model Reference Adaptive Speed Identification Method Based on Single Dimensional Discrete Sliding Mode[J]. Transactions of China Electrotechnical Society, 2012, 27(4):54-58.

27. Zhang Y J, Zhuang X L, Song J M. Measurement of Moisture Content of Crude Oil Based on Optimized Neural Network Prediction[J]. Systems Engineering - Theory & Practice, 2011, 31(6):1112-1117.

28. Zhang Y J, He A R, Guo Q. Main Technical Status and Development Direction of Rolling Automation in Metallurgical Industry[J]. Metallurgical Automation, 2015(3): 1-9.

29. Zhang Y J, Guo Q, Song Y, Liu H Q. Electrical Automation and Computer Control Technology of Hot Strip Rolling[M]. Metallurgical Industry Press, 2016.

30. Zhang Y J. Asynchronous Motor Frequency Conversion Speed Control Technology[M]. China Machine Press, 2016.

31. Zhang Y J, Pan Y D, Li H D. Modern AC Speed Control System [M]. China Machine Press, 2014.

32. Sun Y K, Wang J. Metallurgical Process Automation Foundation[M]. Metallurgical Industry Press, 2006. Participation in editing.

33. Li H D. Electric Drive Control System: Motion Control System [M]. Publishing House of Electronics Industry, 2007. Participation in editing.

PATENTS

34. Deep learning method based on L2 renormalization Adam switching analog tempering SGD, invention patent 201811124380.4

35. A method for predicting power consumption of multi-standard rolled parts during strip hot rolling and rolling, invention patent 201811602133.0

36. An adaptive variation PSO-BP neural network strip steel crown prediction method, invention patent 201810437962.1

37. A Hadoop cluster resource adaptive allocation method, invention patent 201711120624.7

38. Non-intrusive current measurement method and measuring device for multi-core cable, invention patent 201710569347.1

39. A steel strip pickling unit control system before pickling, invention patent 201610911522.6

40. A multi-station automatic water injection device and a control method thereof, invention patent 201610806705.1

41. A spinning combined roll for rolling a circular plate, invention patent 201610742037.0

42. Apparatus and method for continuously galvanizing profiles and pipes, invention patent 201610717643.7

43. A method for energy saving of a conveyor roller based on rolling positioning, invention patent 201610617937.2

44. A method and system for dynamically monitoring real-time deforestation, invention patent 201610244034.4

45. Rolling production line conical conveying roller speed dynamic coordinated control system and method thereof, invention patent 201510792661.7

46. A test method for loading and unloading electromechanical system of main drive of rolling mill, invention patent 201410641791.6

47. An intelligent overcurrent protection device for preventing inverter subversion and a control method thereof, invention patent 201310424687.7