陈娟

发布时间:2020-11-18浏览次数:5203


 

陈娟


工学博士副教授

 常州大学

计算机与人工智能学院  阿里云大数据学院  软件学院

 

江苏常州 213164

E-MAIL: chenjuan@cczu.edu.cn

 

 

 

教育背景:

2013.09-2018.07 江南大学物联网工程学院 控制科学与工程专业工学博士

2015.03-2015.09 美国加州大学默塞德分校工程学院 控制工程专业 联合培养博士

2009.09-2011.07 江南大学数理学院 应用数学专业理学硕士

2000.09-2004.07 常州大学  信息与计算科学系  信息与计算科学专业 理学学士

工作履历:

2023.07-至今常州大学阿里云大数据学院, 副教授

2024.10-2025.10 比利时法语布鲁塞尔自由大学 访问学者

2020.07-2023.07 常州大学阿里云大数据学院, 讲师

2020.01- 爱沙尼亚塔林理工大学 Alpha 控制实验室, Special collaborator

2019.01-2020.01爱沙尼亚塔林理工大学, Postdoctoral researcher

2012.06-2013.01 中国电子科技集团公司第58研究所技术部无锡中微掩膜电子有限公司, 工程师

主授课程:

计算方法  32学时 本科生

数值分析  32学时 本科生

概率论与数理统计40学时 本科生


研究领域:

基于人工智能-深度学习的控制方法人工智能-神经网络控制、计算机离散化采样数据控制、分数阶系统


奖励与荣誉:

1. 2023年常州市第十七届自然科学优秀学术论文三等奖

2. 2023年江苏政府留学奖学金

3. 2021年常州大学青年教师课堂教学技艺大赛二等奖


 

学术成果:

教材与专著

 

发表论文

一、期刊论文

[1] J Chen, H C Zhou, B Zhuang, M H Xu*, Active disturbance rejection control to stabilization of coupled delayed time fractional-order reaction-advection-diffusion systems with disturbances and spatially varying coefficients, Chaos, Solitons and Fractals, 170, (2023) 113316. (SCI 1区 数学跨学科应用Top期刊)

[2] T E Chen, J Chen*, B Zhuang. Stabilization of coupled delayed nonlinear time fractional reaction diffusion systems using sampled-in-space sensing and actuation,Asian Journal of Control, 26 (2024) 3067-3081. (SCI).

[3] J Chen*, Y W Xue, H C Zhou, B Zhuang, Input-to-state stabilization of coupled time fractional PDEs using observer-based fractional sliding mode control and sampled measurements, Journal of Systems Science Complexity, 2025, in press. (SCI)

[4] J Chen*, B Zhuang, Sampled-data observer-based nonlinear control for coupled semilinear fractional order partial differential equation systems with time-varying delays,Transactions of the Institute of Measurement and Control, 47(1), 2025, 3-17. (SCI)

[5] J Chen, B Zhuang*, Boundary control of coupled non-constant parameter systems of time fractional PDEs with different-type boundary conditions, Journal of Systems Science Complexity, 36 (2023) 273-293. (SCI)

[6] J Chen*, B Zhuang, Y J Yu, Asymptotic stabilization of coupled delayed time fractional reaction diffusion systems with boundary input disturbances via backstepping sliding-mode control, International Journal of Systems Science, 53(14) (2022) 3112-3130. (SCI).

[7] Y X Zhang, J Chen*, B Zhuang, Observer design for time fractional reaction diffusion systems with spatially varying coefficients and weighted spatial averages measurement, International Journal of Systems Science, 50(10) (2022) 2121-2135. (SCI).

[8] J Chen*, B Zhuang, A Tepljakov, E Petlenkov, Stabilization and uncertainty analysis of a time-fractional reaction diffusion equation cascaded with a time-fractional hyperbolic partial differential equation, Asian Journal of Control, 24 (2022) 2294-2310. (SCI).

[9] J Chen, B Zhuang*, Sliding-mode boundary control for perturbed time fractional parabolic systems with spatially varying coefficients using backstepping, Asian Journal of Control, (2022) 1-16. (SCI).

[10] J Chen*, A Tepljakov, E Petlenkov, Y Q Chen, B Zhuang, Boundary Mittag-Leffler stabilization of coupled time fractional order reaction-advection-diffusion systems with non-constant coefficients, Systems & Control Letters, 149 (2021) 104875. (SCI)

[11] J Chen*, B T Cui, Y Q Chen, B Zhuang, An improved cooperative team spraying control of a diffusion process with a moving or static pollution source. IEEE/CAA Journal of Automatica Sinica, 7(2) (2020) 494-504. (SCI)

[12] J Chen*, A Tepljakov, E Petlenkov, Y Q Chen, B Zhuang, State and output feedback boundary control of fractional PDE-fractional ODE cascades with space-dependent diffusivity, IET Control Theory & Applications, 14 (20) (2020)  3589-3600. (SCI)

[13] J Chen*, A Tepljakov, E Petlenkov, Y Q Chen, B Zhuang, Observation and stabilization of coupled time fractional order reaction-advection-diffusion systems with spatially-varying coefficients. IET Control Theory & Applications, 14(19) (2020) 3128-3138. (SCI)

[14] J Chen*, A Tepljakov, E Petlenkov, B Zhuang, Boundary state and output feedbacks for an underactuated system of fractional PDEs with different space-dependent diffusivity. International Journal of Systems Science, 51(15) (2020) 2922-2942. (SCI)

[15] J Chen*, A Tepljakov, E Petlenkov, Y Q Chen, B Zhuang, Stabilization and stability robustness of coupled non-constant parameter time fractional PDEs, IEEE Access, 7 (2019) 163969-163980. (SCI)

[16] J Chen*, B T Cui, Y Q Chen, Observer-based output feedback control for a boundary controlled fractional reaction diffusion system with spatially-varying diffusivity, IET Control Theory & Applications, 12(11) (2018) 1561-1572. (SCI)

[17] J Chen*, B T Cui, Y Q Chen, Backstepping-based boundary control design for a fractional reaction diffusion system with a space-dependent diffusion coefficient, ISA Transactions, 80 (2018) 203-211. (SCI)

[18] J Chen*, B Zhuang, Y Q Chen, B T Cui, Diffusion control for a tempered anomalous diffusion system using fractional-order PI controllers, ISA Transactions, 82 (2018) 94-106. (SCI)

[19] J Chen*, B Zhuang, Y Q Chen, B T Cui, Backstepping-based boundary feedback control for a fractional reaction diffusion system with mixed or Robin boundary conditions, IET Control Theory & Applications, 11(17) (2017) 2964-2976. (SCI)

[20] 陈娟*, 崔宝同,非常数扩散率的分数阶分布参数系统的控制, 信息与控制, 47(2) (2018) 223-230. (CSCD 北大中文核心期刊)

[21] 陈娟, 张荣*, 徐振源, 过榴哓, 参数激励下单向耦合的Lorenz系统广义同步的复杂性, 系统仿真学报, 25(7) (2013)  1451-1459. (CSCD 北大中文核心期刊)

[22] 陈娟, 张荣*, 徐振源, 过榴哓, 外激励下两个单向耦合的Lorenz系统的广义同步的复杂性, 江南大学学报(自然科学版), 10(2) (2011) 221-231.

[23] J X Zhang*, B T Cui, Z X Jiang, J Chen, A PD-type iterative learning algorithm for semi-linear distributed parameter systems with sensors/actuators, IEEE Access, 7 (2019) 159037-159047. (SCI)

[24] Y J Zhou, B T Cui, B Zhuang, J Chen, Mittag-Leffler stability analysis for time-fractional hyperbolic systems with space-dependent reactivity using backstepping-based boundary control, International Journal of Modelling, Identification and Control, 2023, 43(1): 1-12. (EI)

[25] 庄波*, 崔宝同, 陈娟, 一类耦合分数阶反应-扩散系统的边界控制, 控制理论和应用, 37(3) (2020) 592-602. (EI)

[26] 庄波*, 崔宝同, 楼旭阳, 陈娟, 基于反步法的耦合分数阶反应扩散系统边界输出反馈控制, 自动化学报, 48(11) (2022) 2729-2743. (EI)

[27] Y R Wen, X Y Lou, J Chen, Y Q Chen*, Mobile actuator-plus-sensor strategy for event-driven observer-based control of delayed distributed parameter systems, IEEE Control Systems Letters, 6 (2021) 2162-2167.

二、会议论文

[1] J Chen*, Y W Xue, B Zhuang. Sampled-data stabilization of coupled nonlinear fractional order reaction-advection-diffusion systems with time-varying delays,18th IFAC Workshop on Time Delay Systems, Udine, Italy, September 24-27, 2024,IFAC papersOnline 58-27, pp.1-6.(EI)

[2] C L Zhang, J Chen*, Y W Xue, Sampled-data H-infinity control of semilinear fractional reaction diffusion systems, 2024 39th Youth Academic Annual Conference of Chinese Association of Automation (YAC), Dalian, June 7-9, 2024, pp. 212-217.(EI)

[3] J Chen*, A Tepljakov, E Petlenkov, B Zhuang, Bilateral output feedback control of fractional PDEs with space-dependent coefficients, IFAC World Congress 2020, Berlin, Germany, July 13-17, 2020, pp. 3743-3748. (EI)

[4] Y J Zhou, J Chen*, B T Cui, Observer design for boundary coupled fractional order distributed parameter systems, Proceeding of 7th International Conference on Control, Mechatronics and Automation, Delft, Netherland, November 6-8, 2019, pp. 384-388. (EI)

[5] J Chen, B T Cui*, Y Q Chen, L Mao, Backstepping-based observer for output feedback stabilization of a boundary controlled fractional reaction diffusion system, 2017 11th Asian Control Conference (ASCC), Australia, December, 2017, pp. 2435-2440. (EI)

[6] F D Ge, J Chen, Y Q Chen*, C H Kou, Optimal spraying control of a tempered time fractional order anomalous diffusion system, The International Symposium on Fractional Signals and Systems, Romania, October 2015, pp. 43-48. (EI)

三、教研论文

[1] 陈娟*,姜忠义,焦影影, 计算方法课程中最小二乘法的思政教学, 高师理科学刊, 2023,43(06):84-86.


 

研究项目:

2023.01-2025.12,国家自然科学基金青年项目,编号:62203070,主持

2020.01-2024.12,爱沙尼亚研究委员会研究与开发项目,编号:PRG658,参与,排名第五

 

 

招生:

硕士研究生:请见学院硕士研究生招生简章。课题组主要做基于人工智能-深度学习的控制问题、人工智能-神经网络控制问题等。有意向学生请将简历发邮件chenjuan@cczu.edu.cn,使用邮件主题“申请硕士研究生+姓名+毕业院校+专业”。

欢迎计算机科学与技术、应用数学、自动化等专业背景学生报考。

1. 招生要求:

(1)有较好的Matlab和Python编程能力,熟练使用Latex写作软件;

(2)有一定的数学(微分方程和矩阵论等)基础,较为流利的英语写作技能,踏实勤奋 

(3)了解线性系统理论、自动化原理等课程的基础知识者优先。 

2. 附加说明:

(1)具体方向根据个人兴趣和基础,和导师协商确定。也欢迎学生自己提出感兴趣的方向;

(2)与爱沙尼亚塔林理工大学Alpha 控制实验室比利时法语布鲁塞尔自由大学SAAS实验室等保持长期合作。






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