Prof. Juan CHEN

Office Address

New Chemistry Building 104B

Mailing Address

Mail Box 4, No. 15 Beisanhuan East Road, Chaoyang District, Beijing 100029, P.R. China



Research Interests

1. The Modeling of complex systems, control and advanced control methods, Prof. Chen’s research interests including system identification method, the control method of multivariable multi-delay systems.
2. Process optimization technology of process industry based on ultrasonic technology, including ultrasonic extraction and ultrasonic fermentation process optimization.
3. Chemical measurement methods and the optimization algorithm of chemical process.
4. Detection and Intelligent detection method,Including water quality testing technology based on electrochemical methods and ultrasonic signal detection technology.

Working/Education Experience

Prof.Chen received the B.S. degree in Electrical Engineering Automation from Yan Shan University in 1983 and the M.S.E. in Navigation and Guidance from Harbin Institute Of Technology and Ph.D. degrees in Control Science and Engineering from Beijing University of Chemical Technology.

Teaching Courses

1.Automatic Control Theory
2.Modern Control Theory
3. Lectures on Frontier Academics


1. Research on the mechanism and process optimization of extracting traditional Chinese medicine by using the ultrasonic various. National Natural Science Foundation of China(2014)
2. Ultrasonic extraction process optimizes technology for traditional Chinese medicine based on data-driven and detection of key parameters. National Natural Science Foundation of China(2012)
3. Research on pipeline pressure magnetic elastic wave detection method using non-intrusive methods. China National Petroleum Corporation, Science and Technology Innovation Fund for youth.(2008)
4. Research on water quality testing techniques and methods. Military projects.(2012)
5. Long-distance gas pipeline corrosion inside peek appearance ultrasonic detection technology(2008) .China National Petroleum Corporation, Risk Fund
6. Research and Development of Water spectroscopic detection technology.(2014). Enterprise Research Project
7. Extracting traditional Chinese medicine by using the ultrasonic various.(2011) Enterprise Research Project.


[1] Juan Chen.A new control method for MIMO first order time delay non-square systems. Journal of Process Control 2011. 21 (4) :538–546 (SCI)
[2] J. Chen. Improvement of stress testing performance using Barkhausen noise sensor. Sensors and Actuators A: Physical. 2011.168(7):51–57(SCI)
[3] Chen Juan.Application of least squares support vector machine in soft sensor of traditional Chinese Medicine extraction. 2011 Seventh international Conference on Natural Compution.2011.7.(EI)
[4] Juan Chen. Filter time constant self-adjusting internal model control based on variable domain fuzzy control for time-delay uncertain systems. 2010 7th International Conference on Fuzzy Systems and Knowledge Discovery, FSKD 2010.7(EI)
[5] Juan Chen, Xiaoyi Huang, Yanlei Qi, Xin Qi, Qing Guo. Process Optimization of Ultrasonic Extravtion of PUerarin Based on Support Vector Machine. Chinese Journal of Chemical Engineering, 2014, 22(7) 735-741. (SCI)
[6]Yawei Peng, Juan Chen. Adaptive fuzzy sliding mode control in chemical processapplication. The Official Journal of the Chemical Industry and Engineering Society of China 2012, 63(9):2843-2850 (EI)
[7] Juan Chen, Yuqin Liu. Model approximate method of complex system. International Journal of Modeling and Optimization. 2015 Vol.5(2): 128-134
[8] CHEN Juan, GUO Min, PENG Ya-wei. Design of Internal Model Controller Using Novel Filter. Transactions of Beijing Institute of Technology. 2012,32(11) 1145-1149 (EI)
[9] CHEN Juan, PENG Ya-wei, GUO Min. Sliding Mode Control Based on LTR Observerfor Input Time-Delay System. Transactions of Beijing Institute of Technology. 2012, 32(8) 811-815 (EI)
[10] Juan Chen, Yawei Peng,Weisha Han and Min Guo.Adaptive Fuzzy Sliding Mode Control in PH Neutralization Process. Procedia Engineering 2011, 15(2):954~958 (EI)
[11] Min Guo, Juan Chen and Yawei Peng. The Control Method of Multivariable Time-Delay Square System containing Right Half Plane Zeros. Procedia Engineering 2011, 15(2):1004~1009 (EI)
[12] Juan Chen, Zhan-fu Liu, Ya-wei Peng and Min Guo. A New Control Method in pH Neutralization Process 2013, Lecture Notes in Electrical Engineering. 2013, 254 511~519 (EI)
[13] CHU Ji-zheng,Du Bin,Juan Chen(Communication contacts). Performance Analysis and Online Fuzzy Self-Tuning of RTD-AController’s Parameters. JOURNAL of ShANGHAi JIAOTONG UNIVERSITY.2011.45(8):1167-1171(EI)
[14] Juan Chen, Wei-sha Han. A New Design Method of Internal Model Control Based on Butterworth Filter for non-minimum phase High-order Systems. Proceedings of the 34th Chinese Control Conference. July 28-30, 2015, Hangzhou, China
[15] Zhaoping Sun, Chen Juan and Xiangting Zhu. Multi-Model Internal Mode Control Applied in Temperature Reduction System. The 11th World Congress on Intelligent Control and Automation. WCICA 2014, 2014:247~250 (EI)
[16] Qing Guo, Shengyun Liu, Masaru Noda and Juan Chen. Optimal grade transition for quality control of continuous free radical polymerization process.International Journal of Comprehensive Engineering Part B. 2014, 3(1):16~24. (EI)
[17] Qing Guo Haiyan Liu and Juan Chen.Optimal Grade Transition of the Styrene Polymerization Process with Endpoint and Path ConstraintsProceeding of the 11th World Congress on Intelligent Control and Automation. WCICA 2014, 2014:4988~4992. (EI)
[18] 齐岩磊,陈娟,杨祺,祁欣.基于SVM的葛根素提取软测量系统的设计.电子测量与仪器学报.2012, 26(8) :726~731
[19] 傅杰,殷华宇,陈娟,祁欣.基于巴克豪森效应的钢轨应力检测系统设计.电子测量与仪器学报.2013, 27(5): 403-408
[20] 辛联庆,陈娟.超声波结合稀碱预处理玉米秸秆发酵的研究.北京化工大学学报.2013, 40(2):65~70
[21] 陈忠元,陈娟,邵芬红.基于现场可编程逻辑门阵列的超声波管道测厚北京化工大学学报2012,39(4):106~110
[22] 张雨泽,陈娟.水环境重金属检测系统的硬件研究.北京化工大学学报.2014, 41(1):90~95
[23] 傅杰,陈娟,殷华宇.便携式微量溶解氧检测仪的研制.电子测量技术.2013,36(2) :64~67
[24] 朱宇琪,王齐,温韬,郑硕,陈娟. 直流电机双环调速系统内模控制方法的研究.北京化工大学学报.2014,41(4) :106~1 70
[25] 辛联庆,陈娟,朱祥庭。微量溶解氧传感器的研制.电子测量技术.2014, 37(3):89~92
[26] 孙兆萍,陈娟. 基于支持向量机和wiener模型的内模控制方法研究.北京化工大学学报.2014,41(6): 98~102. 2014.11.20发刊
[27] 刘昇云,郭青,陈娟.苯乙烯聚合反应过程的牌号切换优化策略. 北京化工大学学报.2014, 41(5):101~106.
[28] 蒋晓龙,陈娟.多频段超声波发生系统应用研究.北京化工大学学报. 2015.42(4):95-100
[29] 刘玉琴,陈娟. 基于PSO算法的模型近似的方法研究.北京化工大学学报. 2015.42(5):97-102
[30] 曾永权,陈娟. 便携式余氯检测仪的研究. 国外电子测量技术. 2015.34(5):56-60