董玉姣 讲师（高校）

董玉姣，女，博士，讲师，硕士生导师。2022年8月入职杭州电子科技大学任教至今，长期从事忆阻器、仿生电路及神经网络等领域。中国电子学会会员、IEEE会员，IEEE NCAS委员会委员，长期担任IEEE Transactions on Circuits and Systems、Nonlinear dynamics、Neural Networks等国内外期刊审稿专家。主持国家自然科学基金项目1项、浙江省自然科学基金项目1项，近五年发表SCI论文30余篇，其中第一作者或通讯作者14篇，多次参加国际及国内学术会议。

主讲本科生课程《数字逻辑电路》，主持浙江省研究生教学案例1项，校级教改项目1项，指导本科生获批科创项目4项，指导本科生一作发表SCI论文2篇。

欢迎邮件咨询，请附简历、本科成绩单等。

希望拟报考同学做事认真、勤奋肯干，共同进步！

2017年9月-2022年6月，杭州电子科技大学，电子信息学院，博士

2021年6月-2022年6月，香港大学，电气与电子工程系，访学

2022年8月-至今，杭州电子科技大学，电子信息学院，讲师

IEEE会员、电子学会会员，IEEE NCAS委员会委员。

忆阻器，仿生电路，忆阻神经网络等

主持科研项目：

1. 国家自然科学基金青年项目-《纯忆阻神经元及其耦合网络的奇美拉态机理研究》，2024-2026；

2. 浙江省自然科学基金探索青年项目-《全忆阻器神经网络及其复杂模式研究》，2023-2025

主要发表论文

[1]   Y. Mao, Y. Dong*, Z. Lu, C. Xiang, J. Wang, and Y. Liang. Second-order locally active memristor based neuronal circuit, Chaos Solitons & Fractals, 195: 116279, 2025.(SCI一区TOP期刊，影响因子：5.944)

[2]   Y. Liang, Z. Zeng, K. Liu, Y. Yang, Y. Dong*, P. Jin, G. Wang, A.Demirkol, R. Tetzlaff, F. Corinto, and A. Ascoli. Theoretical analysis and hardware reproduction of the Hodgkin-Huxley bifurcation diagram in a lam-based neuron on edge of chaos, IEEE Transactions on Circuits and Systems I-Regular Papers, early access,2025. (SCI二区TOP期刊，影响因子：3.605)

[3]  Dong YJ, Guo RR, Liang Y*, Dong ZK, Wang XW, Wang GY, Yuan F, and Mei XS. Twinned locally active memristor-based chaotic neuron [J]. International Journal of Bifurcation and Chaos, 2025, 35 (12): 2530027.(SCI三区期刊，影响因子：2.836)

[4]  Wang XY, Dong YJ*, Wang GY, Zhou ZY, Mao YD, Jin PP, and Liang Y. Monophasic and biphasic neurodynamics of bi-s-type locally active memristor [J]. Frontiers in Physics, 2025, 13: 1622487.

[5]  Dong Y J, Guo R, Liang Y*, Yang J, and Wang G. Coupling dynamics of locally active memristor based neurons [J]. Chaos, 2024, 34(8).（SCI二区期刊，特色论文，影响因子：3.642）

[6]Liang Y, Liu K, Dong Y J*, Lu Z,and Wang G Y. Capacitively Coupled Memristive Neurons on the Edge of Chaos [J]. IEEE Transactions on Circuits and Systems II, Brief Letters, 2024. (SCI一区TOP期刊，影响因子：4.4)

[7]Dong Y J, Yang S T, Liang Y, and Wang G Y^*. Neuromorphic dynamics near the edge of chaos in memristive neurons [J]. Chaos, Solitons and Fractals, 2022. (SCI一区TOP期刊，影响因子：5.944)

[8]  Dong Y J, Wang G Y^*, Wang Z R, Iu H H-C, and Chen L. Neuromorphic behaviors of the 4-lobe Chua Corsage memristor [J]. International Journal of Bifurcation and Chaos, 2022, 32 (4): 2250058. (SCI三区期刊，影响因子：2.836)

[9]Dong Y J, Wang G Y^*, Liang Y, and Chen G R. Complex dynamics of a bi-directional N-type locally-active memristor [J]. Communications in Nonlinear Science and Numerical Simulation, 2021, 105: 106086. (SCI一区TOP期刊，影响因子：4.26)

[10] Dong Y J, Liang Y, Wang G Y^*, and Iu H H-C. Chua Corsage memristor based neuron models [J]. Electronic Letters, 2021, 57 (24): 903-905. (SCI四区期刊，影响因子：1.314)

[11]  Dong Y J, Wang G Y^*, Chen G R, Shen Y R, and Ying J J. A bistable nonvolatile locally-active memristor and its complex dynamics [J]. Communications in Nonlinear Science and Numerical Simulation, 2020, 84: 105203. (SCI一区TOP期刊，影响因子：4.26)

[12]  Dong Y J, Wang G Y^*, Iu H H-C, Chen G R, and Chen L. Coexisting hidden and self-excited attractors in a locally-active memristor-based circuit [J]. Chaos, 2020, 30 (10): 103123. (SCI二区期刊，特色论文，影响因子：3.642)

[13]  Liang Y, Wang G Y^*, Chen G R, Dong Y J, Yu D S, and Iu H H-C. S-type locally active memristor-based periodic and chaotic oscillators [J].IEEE Transactions on Circuits and Systems-I: Regular Papers,2020, 67 (12): 5139-5152. (SCI一区TOP期刊，影响因子：3.605)

[14] Chen X, Yang D L, Hwang G, Dong Y J, Cui B, Wang D C, Chen H G, Lin N, Zhang W, Li H H, Shao R W, Lin P, Hong H, Yao Y, Sun L F, Wang Z R, Yang H. Oscillatory neural network-based Ising machine using 2D memristors.ACS Nano, 18 (16): 10758-10767, 2024. (SCI一区TOP期刊, 影响因子：15.8)

[15]Ying J J, Liang Y^*, Wang J L, Dong Y J, Wang G Y, and Gu M Y. A tristable locally-active memristor and its complex dynamics [J].Chaos, Solitons and Fractals, 2021, 148: 111038. (SCI一区TOP期刊，影响因子：5.944)

[16]Gu W Y, Wang G Y^*, Dong Y J, and Ying J J. Nonlinear dynamics in a non-volatile locally-active memristor for periodic and chaotic oscillations [J]. Chinese Physics B, 2020, 29 (11): 110503. (SCI三区期刊，影响因子：1.494)

[17]Ying J J, Wang G Y^*, Dong Y J, and Yu S M. Switching characteristics of a locally-Active memristor with binary memories [J].International Journal of Bifurcation and Chaos, 2019, 29 (11): 1930030. (SCI三区期刊，影响因子：2.836)

[18]Gu M Y, Wang G Y^*, Liu J B, Liang Y, Dong Y J, and Ying J J. Dynamics of a bistable current-controlled locally-active memristor [J]. International Journal of Bifurcation and Chaos, 2021, 31 (6): 2130018. (SCI三区期刊，影响因子：2.836)

[19]Liang Y^*, Lu Z Z, Wang G Y, Dong Y J, Yu D S, and Iu H H-C. Modeling simplification and dynamic behavior of N-shaped locally-active memristor based oscillator [J]. IEEE Access, 2020,  8: 75571-75585. (SCI三区期刊，影响因子：3.367)

[20]李茹依, 王光义^*, 董玉姣, 周玮. 多频正弦混沌细胞神经网络及其复杂动力学特性[J]. 物理学报, 2020, 69 (24): 240501. (SCI四区期刊，影响因子：0.819)

[21]Wang S C, Chen H G, Zhang W Y, Li Y, Wang D C, Shi S H, Zhao Y P, Loong K C, Chen X, Dong Y J, Zhang Y, Jiang Y, Furqan C, Chen J, Wang Q, Xu X X, Wang G Y, Yu H Y, Shang D S^*, and Wang Z R^*. Convolutional echo-state network with random memristors for spatiotemporal signal classification [J]. Advanced Intelligent Systems, 2022: 2200027. Doi: 10.1002/aisy.202200027.

[22]Zhang Y, Deng Y, Lin Y N, Jiang Y, Dong Y J, Chen X, Wang G Y, Shang D S, Wang Q^*, Yu H Y^*, and Wang Z R^*. Oscillators network based Ising machine [J]. Micromachines, 2022. (SCI三区期刊，影响因子：2.891)

[23]Li F P, Liu J B, Zhou W, Dong Y J, Jin P P, Ying J J, and Wang G Y^*. A passive but locally active memristor and its complex dynamics [J]. Electronics, 2022. (SCI四区期刊，影响因子：2.397)

[24]Shi S Y, Liang Y*, Li Y, Lu Z, Dong Y J, A Neuron Circuit Based on Memristor and Negative Capacitor: Dynamics Analysis and Hardware Implementation. Chaos Solitons & Fractals,2024. (SCI一区)

[25] Liang Y*, Wang S, Dong Y J, Lu Z, Wang G Y. Locally-Active Memristors-Based Reactance-Less Oscillator, IEEE Transactions on Circuits and Systems II, Brief Letters. 2023, 70(1):321-325. (SCI二区TOP)

[26] Guo H M, Liang Y*, Dong Y J, Wang G Y. Simplification of Chua corsage memristor and hardware implementation of its neuron circuit, Acta Physica Sinica, 2023, 72(7):13. (SCI四区期刊，影响因子：0.819)

[27]Lu Z, Liang Y*, Dong Y J, Wang S. Spiking and chaotic behaviours of locally active memristor, Electronics Letters, 2022, 58(18):681-683. (SCI四区期刊，影响因子：1.314)

[28]Ying J, Liang Y*, Wang J, Dong Y J, Wang G Y and Gu M Y. A tristable locally-active memristor and its complex dynamics, Chaos, Solitons & Fractals, 2021, 31(6):1054-1500. (SCI一区TOP期刊，影响因子：5.944)

[29]Liang Y, Wang G Y*, Chen G R, Dong Y J, Yu D S and Iu H H-C. S-type Locally-active Memristor-based Periodic and Chaotic Oscillators, IEEE Transactions on Circuits and Systems I: Regular Papers, 2020,67(12):5139-5152. (SCI一区TOP期刊，影响因子：3.605)

[30] Yan Y, Jin P P, Wang G Y, Liang Y, Dong Y J and Chen L. Neuron Circuit Made of a Single Locally-active Memristor, MODERN PHYSICS LETTERS B, 2025.

[31] Zhou W, P P Jin, Dong Y J, Liang Y, and Wang G Y. Memristor neurons and their coupling networks based on Edge of  Chaos Kernel, Chaos, Solitons & Fractals, 2023, 177:114224.(SCI一区TOP期刊，影响因子：5.944)

主持科研项目：

1. 国家自然科学基金青年项目-《纯忆阻神经元及其耦合网络的奇美拉态机理研究》，2024-2026；

2. 浙江省自然科学基金探索青年项目-《全忆阻器神经网络及其复杂模式研究》，2023-2025