• 其他栏目

    钟杰

    • 副教授
    • 性别 : 男
    • 毕业院校 : 香港城市大学
    • 在职信息 : 在岗
    • 所在单位 : 数学科学学院
    • 入职时间 : 2019-01-02
    • 学科 : 数学与应用数学
    • Email :

    访问量 :

    最后更新时间 : ..

    个人简介

    1. 基本情况

    钟杰,博士,副教授,博士生导师,博士后导师,校聘教授。(邮箱:zhongjie0615@gmail.com (常用邮箱),jiezhong0615math@zjnu.edu.cn (学校邮箱),联系方式:19884864069)欢迎志同道合的同学加入团队。


    2015年和2018分别在东南大学和香港城市大学获得硕士和博士学位,2017年7月-9月,为日本北海道大学访问学者,2018年7月-9月和2019年7月-9月为香港城市大学数学系访问学者。主要从事布尔网络的分析与控制、离散事件系统、有限自动机的建模与分析、状态估计与故障诊断等相关问题的研究。截止目前,已发表SCI 60 余篇(中科院一区论文 30 余篇,IEEE Trans. 论文 24篇,ESI高被引论文 3 篇),其中 2 篇论文分别进入2018年1月ESI前0.1%热点论文和一篇论文进入2019年1月ESI前0.1%热点论文。全部论文被Google 引用1800余次,其中3篇论文单篇被Google 引用200余次, h-index=24。作为第一作者或通讯作者在 Automatica、IEEE Trans. Automatic Control (其中长文1篇、短文3)、IEEE Trans. Neural Networks and Learning Systems、IEEE Trans. Cybernetics、IEEE Trans. Control of Network Systems 等发表 SCI 论文 40 余篇。作为第二作者(研究生导师为第一作者) 在 IEEE Trans. Automatic Control、SIAM J. Control and Optimization 等期刊发表多篇 SCI 论文。担任Automatica、IEEE Trans. Automatic Control、IEEE Trans. Neural Networks and Learning Systems、IEEE Trans. Cybernetics、IEEE Trans. Control of Network Systems、International Journal of Robust and Nonlinear Control、IEEE/ACM Trans. Computational Biology and Bioinformatics、BMC Bioinformatics等二十余个国际期刊的活跃审稿人。湖北省科学技术厅专家库成员,广东省科技厅专家库成员,黑龙江省科技厅专家库成员,TCCT逻辑系统控制专题研讨会副秘书长,国家自然科学基金项目评审专家,广东省基础与应用基础研究基金(区域联合基金)项目评审专家。


    2. 主持科研项目情况

    2.1 国家自然科学基金面上项目,                     2023.01-2026.12,            主持

    2.2 国家自然科学基金青年项目,                     2020.01-2022.12,            主持

    2.3 浙江省博士后科研项目择优资助,              2021,                          主持

    2.4 浙江省自然科学基金一般项目,                  2021,                         主持

    2.5 中国博士后科学基金面上项目,                  2021,                         主持

    2.6 中国博士后科学基金特别资助项目,           2023,                         主持

    2.7 浙江省省属高校基本科研业务费培育专项, 2023,                         主持

    2.8 国家自然科学基金面上项目,                     2022.01-2025.12,      参与

    2.9 2021年度浙江师范大学“数学、物理、计算机科学、工程 和医学交叉预研专项”, 2021年,第二负责人


    3. 获奖情况

    2022年入选浙江省省级青年人才

    获2016年度江苏省优秀硕士学位论文,硕士学位论文题目为《耦合布尔网络的同步与控制问题研究》

    2014年获研究生国家奖学金

    2017年获得Asian Journal of Control国际SCI期刊杰出审稿人


    4. 学术兼职

    美国数学《数学评论》(Mathematical Reviews)评论员

    聊城大学学报编委

    第十一届国际信息科学与技术会议程序委员会委员(Program Committee Member of 11th International Conference on Information Science and Technology)

    第11届智能控制与信息处理国际会议程序委员会委员 (Program Committee Member of 11th International Conference on Intelligent Control and Information Processing)

    电气电子工程师协会会员(IEEE Member)


    5. 指导学生情况

    指导本科毕业论文“逻辑动力系统中的控制镇定理论研究”获得由菲尔兹奖获得者丘成桐颁发的“新世界数学奖”银奖

    指导硕士毕业论文获浙江省优秀硕士学位论文 (第一个硕士研究生:于宗喜)

    指导国家级大学生创新创业训练计划项目3项级大学生创新创业训练计划项目2项学院重点课题项目7项。


    6. 部分代表论文

    [55] Qinyao Pan,  Jie Zhong(通讯作者), Tatsuya Akutsu, Yang Liu, and Rongjian Liu. Distributed pinning control: stabilizing large Boolean networks subjected to perturbations. IEEE Trans. Cybernetics, accepted, 2024.

    [54] Lingzhong Zhang, Jianquan Lu, Bangxin Jiang, Jie Zhong(通讯作者), Impulsive synchronization control for dynamic networks subject to double deception attacks, Expert Systems With Applications, in press, 2024. 

    [53] Yishu Wang, Jianquan Lu, Tingwen Huang, Jinde Cao, Jie Zhong(通讯作者), Fixed-time synchronization for two-dimensional coupled reaction-diffusion complex networks: Boundary conditions analysis, Chaos, in press, 2024. 

    [52] Jing Zhang, Jianquan Lu, Jinling Liang, Jie Zhong, Average consensus of whole-process privacy protection: A scale parameter method, Information Fusion2024.

    [51] Jian Yang, Shuting Zhang, Jungang Lou, Jianquan Lu, Jie Zhong(通讯作者), Finite-Time Set Stabilization of Probabilistic Boolean Control Networks via Output-Feedback Control, Neurocomputing572:127208, 2024.

    [50] Jie Zhong, Qinyao Pan, Wenying Xu, Bo Chen, A Framework of Pinning Control for Non-periodical Stable Behaviors of Large-scale Asynchronous Boolean Networks, IEEE Trans. Automatic Control (Regular Paper), early access, 2024. DOI: 10.1109/TAC.2024.3351553. 

    [49] Bowen Li, Jianquan Lu, Wenying Xu, Jie Zhong(通讯作者), Lossless State Compression of Boolean Control Networks, IEEE Trans. Automatic Controlearly access, 2024. DOI: 10.1109/TAC.2024.3351573.

    [48] Yong Wang, Jie Zhong(通讯作者), Qinyao Pan, Ning Li, Minimal Pinning Control for Set Stability of Boolean Networks, Applied Mathematics and Computation, 465:128433, 2024.

    [47] Lingzhong Zhang, Jie Zhong(通讯作者), Jungang Lou, Yang Liu, Jianquan Lu, Bipartite Secure Synchronization for Dynamic Networks under Deception Attacks via Delay-Dependent Impulsive Control, Chaos, Solitons and Fractals, 177:114215, 2023. 

    [46] Jie Zhong(通讯作者), Shinan Lin, Yong Wang, Yaqi Wang, Set Controllability of Boolean Control Networks under Stochastic Function Perturbation, IEEE Trans. Circuits and Systems II: Express Briefs, in press, 2023. DOI: 10.1109/TCSII.2023.3321291

    [45] Jing Zhang, Jianquan Lu, Xiangyong Chen, and Jie Zhong(通讯作者), Privacy-preserving bipartite consensus on signed networks, IEEE Trans. Control of Network Systems, in press, 2023. DOI: 10.1109/TCNS.2023.3298198

    [44] Bowen Li, Qinyao Pan, Jie Zhong(通讯作者), and Wenying Xu, Long-run behavior estimation of temporal Boolean networks with multiple data losses, IEEE Trans. Neural Networks and Learning Systems, in press, 2023. DOI: 10.1109/TNNLS.2023.3270450.

    [43] Zejiao Liu, Jie Zhong, Yang Liu, and Weihua Gui, Weak stabilization of Boolean networks under state-flipped control, IEEE Trans. Neural Networks and Learning Systems, 34(5):2693-2700, 2023.

    [42] Lin Lin, Jinde Cao, Jie Zhong, Yang Liu, and Wenhua Qian, Necessary and sufficient conditions for event-triggered set stabilizability of Markovian jump logical networks, IEEE Transactions on Cybernetics, in press, 2023. DOI: 10.1109/TCYB.2023.3262540.

    [41] Xiaoxu Liu, Bowen Li, Jie Zhong(通讯作者), Dehao Li, and Lin Lin, Event-triggered set stabilization of impulsive logical control networks based on the hybrid index model approach, Communications in Nonlinear Science and Numerical Simulation, 119: 107085, 2023.

    [40] Bowen Li, Xiaoxu Liu, Jie Zhong, Dehao Li, Tao Peng, and Lin Lin, Self-triggered Scheduling for the Stabilization of Impulsive Boolean Control Networks, Communications in Nonlinear Science and Numerical Simulation, 119:107088, 2023.

    [39] Shaoyu Dai, Bowen Li, Jianquan Lu, Jie Zhong, and Yang Liu, A unified transform method for general robust property of probabilistic Boolean control networks, Applied Mathematics and Computation, 457:128137, 2023.

    [38] Qinyao Pan, Jie Zhong, Lin Lin, Bowen Li, and Xiaoxu Liu, Finite-time observability of probabilistic Boolean control networks, Asian Journal of Control, 25:325-334. 2023.

    [37] Die Xu, Qinyao Pan, Jie Zhong(通讯作者), and Bowen Li, Further results for synchronization of two coupled Boolean networks, Asian Journal of Control, accepted, 2023. DOI: 10.1002/asjc.3016.

    [36] Jie Zhong(通讯作者),Qinyao Pan, Wenying Xu, and Yang Liu, Asymptotical stabilization for probabilistic Boolean control networks under operators and inputs constraints, IEEE Trans. Automatic Control, in press, 2022, doi: 10.1109/TAC.2022.3203019.  

    [35] Jie Zhong, Yang Liu, Jianquan Lu, and Weihua Gui, Pinning control for stabilization of Boolean networks under knock-out perturbation, IEEE Trans. Automatic Control, 67(3):1550-1557, 2022. 

    [34] Shiyong Zhu, Jianquan Lu, Jie Zhong, and Yang Liu, Sensors design for large Boolean networks via pinning observability, IEEE Trans. Automatic Control, 67(8):4162-4169, 2022.

    [33] Jie Zhong(通讯作者), Zongxi Yu, Yuanyuan Li, and Jianquan Lu, State estimation for probabilistic Boolean networks via outputs observation, IEEE Trans. Neural Networks and Learning Systems, 33(9):4699-4711, 2022.

    [32] Lin Lin, Jinde Cao, Jianquan Lu, Jie Zhong, and Shiyong Zhu, Stabilizing large-scale probabilistic Boolean networks by pinning control, IEEE Trans. Cybernetics, 52(12):12929-12941, 2022.

    [31] Jie Zhong, Jianquan Lu, and Daniel W.C. Ho, A new approach to pinning control of Boolean networks, IEEE Trans. Control of Network Systems, 9(1):415-426, 2022.

    [30] Yang Liu, Jie Zhong, Daniel W.C. Ho, and Weihua Gui, Minimal observability of Boolean networks, Science China: Information Sciences, 65(5):152203, 2022.

    [29] Xinrui Ji, Jianquan Lu, Bangxin Jiang, and Jie Zhong(通讯作者), Network synchronization under distributed delayed impulsive control: average delayed impulsive weight approach, Nonlinear Analysis: Hybrid Systems, 44:101148, 2022.

    [28] Bowen Li, Jie Zhong(通讯作者), Jianquan Lu, and Xiaoxu Liu, Robustly distributed diagnosis of discrete-event systems and its application to Alipay transaction systems, Journal of the Franklin Institute, 359:10765-10784, 2022.

    [27] Lin Lin, Jie Zhong(通讯作者), Shiyong Zhu, and Jianquan Lu, Sampled-data general partial synchronization of Boolean control networks, Journal of the Franklin Institute, 359(1):1-11, 2022.

    [26] Tao Peng, Jie Zhong, Zhengwen Tu, and Jianquan Lu, Finite-time synchronization of quaternion-valued neural networks with delays: A switching control method without decomposition, Neural Networks, 148:37-47, 2022.

    [25] Zongxi Yu, Qinyao Pan, Mengxia Xu, Jie Zhong(通讯作者), and Xiaoxu Liu, Network structure and pinning control for stable behaviors of Boolean networks, IEEE Trans. Circuits and Systems II: Express Briefs, 69(3):1482-1486, 2022.

    [24] Jiahao Wu, Jie Zhong, Yang Liu, and Weihua Gui, State estimation of networked finite state machine with communication delays and losses, IEEE Trans. Circuits and Systems II: Express Briefs, 69(3):1372-1376, 2022.

    [23] Jie Zhong(通讯作者), Qinyao Pan, Bowen Li, and Jianquan Lu, Minimal pinning control for oscillatority of Boolean networks, IEEE Trans. Neural Networks and Learning Systems, in press, 2021. DOI: 10.1109/TNNLS.2021.3134960.

    [22] Jie Zhong, Bowen, Li, Yang Liu, Jianquan Lu, and Weihua Gui, Steady-state design of large-dimensional Boolean networks, IEEE Trans. Neural Networks and Learning Systems, 32(3):1149-1161, 2021.

    [21] Jianquan Lu, Bowen Li, and Jie Zhong, A novel synthesis method for reliable feedback shift registers via Boolean networks, Science China: Information Sciences, 64:152207:1-152207:14, 2021.

    [20] Binquan Chen, Jinde Cao, Jie Zhong, and Xianglin Xiong, Asymptotic stability of probabilistic logical networks with random impulsive effects, Information Science, 579:667-684, 2021.

    [19] Yixuan Ren, Xueying Ding, Jie Zhong(通讯作者), and Jianquan Lu, Robust stability in distribution of Boolean networks under multi-bits stochastic function perturbations, Nonlinear Analysis: Hybrid Systems, 42:101095, 2021.

    [18] Lingzhong Zhang, Jie Zhong(通讯作者), and Jianquan Lu, Intermittent control for finite-time synchronization of fractional-order complex networks, Neural Networks, 144:11-20, 2021.

    [17] Qinyao Pan, Jie Zhong, Shalin Tong, Bowen Li, and Xiaoxu Liu, Structural controllability of Boolean control networks under partial information, Complexity, 2021:9442358, 2021.

    [16] Jie Zhong, Bowen, Li, Yang Liu, and Weihua Gui, Output feedback stabilizer design of Boolean networks based on network structure, Frontiers of Information Technology & Electronic Engineering, 21(2):247-259, 2020.

    [15] Wenying Xu, Daniel W. C. Ho, Jie Zhong, and Bo Chen, Event/Self-triggered control for leader-following consensus over unreliable network with DoS attacks, IEEE Trans. Neural Networks and Learning Systems, 30(10):3137-3149, 2019.

    [14] Jie Zhong(通讯作者), Daniel W.C. Ho, Jianquan Lu and Qiang Jiao, Pinning controllers for activation output tracking of Boolean network under one-bit perturbation, IEEE Trans. Cybernetics, 49(9):3398-3408, 2019.

    [13] Mengxia Xu, Yang Liu, Jungang Lou, Zheng-guang Wu and Jie Zhong(通讯作者), Set stabilization of probabilistic Boolean control networks: a sampled-data control approach, IEEE Trans. Cybernetics, 59(8):3816-3823, 2019.

    [12] Yan Zhang, Jie Zhong(通讯作者), Wenjun Xiong, and Jinde Cao, Stabilization and oscillations design for a family of cyclic boolean networks via nodes connection, Neurocomputing, 369:61-68, 2019.

    [11] Jie Zhong, Yang Liu, Kit Ian Kou, Liangjie Sun, Jinde Cao, On the ensemble controllability of Boolean control networks using STP method, Applied Mathematics and Computation, 358:51-62, 2019.

    [10] Bowen Li, Jianquan Lu, Jie Zhong, and Yang Liu, Fast-time stability of temporal Boolean networks, IEEE Trans. Neural Networks and Learning Systems, 30(8):2285-2294, 2018.

    [9] Jie Zhong(通讯作者), Daniel W.C. Ho, Jianquan Lu and Wenying Xu, Global robust stability and stabilization of Boolean network with disturbances, Automatica, 84:142-148, 2017.

    [8] Jie Zhong(通讯作者), Daniel W.C. Ho, Jianquan Lu, and Wenying Xu, Switching-signal-triggered pinning control for output tracking of switched Boolean networks, IET Control Theory & Applications, 11(13):2089-2096, 2017.

    [7] Wenying Xu, Daniel W. C. Ho, Jie Zhong and Bo Chen, Distributed edge event-triggered consensus protocol of multi-agent systems with communication buffer, International Journal of Robust and Nonlinear Control, 27(3):483-496, 2017.

    [6] Jianquan Lu, Jie Zhong, Chi Huang and Jinde Cao, On pinning controllability of Boolean control networks, IEEE Trans. Automatic Control, 61(6):1658-1663, 2016.

    [5] Jianquan Lu, Jie Zhong, Daniel W.C. Ho, Yang Tang and Jinde Cao, On controllability of delayed Boolean control networks, SIAM Journal on Control and Optimization, 54(2):475-494, 2016.

    [4] Jie Zhong, Jianquan Lu, Tingwen Huang, and Daniel W. C. Ho, Controllability and synchronization analysis of identical-hierarchy mixed-valued logical control networks, IEEE Trans. Cybernetics, 47(11):3482-3493, 2016.

    [3] Jie Zhong, Jianquan Lu, Chi Huang, Lulu Li, and Jinde Cao, Finding graph minimum stable set and core via semi-tensor product approach, Neurocomputing, 174:588-596, 2016.

    [2] Jie Zhong, Jianquan Lu, Yang Liu and Jinde Cao, Synchronization in an array of output-coupled Boolean networks with time delay, IEEE Trans. Neural Networks and Learning Systems, 25(12):2288-2294, 2014.

    [1] Jie Zhong, Jianquan Lu, Tingwen Huang, and Jinde Cao, Synchronization of master-slave Boolean networks with impulsive effects: Necessary and sufficient criteria, Neurocomputing, 143:269-274, 2014.


    教师其他联系方式

    邮箱 :

    研究方向

  • 布尔网络的分析与控制、离散事件系统、有限自动机的建模与分析、状态估计与故障诊断