包伯成 正高职称



部门： 电子信息工程系
办公地址： 文约楼603
E-MAIL： mervinbao@126.com


办公电话：












教育经历
2013.06－2013.12 加拿大卡尔加里大学 电气工程系高级访问****2007.09－2010.07 南京理工大学 信息与通信工程专业工学博士1986.09－1989.01 电子科技大学 信号、电路与系统专业工学硕士1982.09－1986.07 成都电讯工程学院 电子工程系工学学士

工作履历
2011.03－至今 常州大学研究员级高级工程师、教授、硕士生导师2008.06－2011.02 江苏技术师范学院电气信息工程学院研究员级高级工程师2003.10－2008.04 中华通信系统有限公司设计院设计部经理1994.12－2003.10 常州博成电子有限公司总经理1989.04－1994.11 常州电子计算机厂通信分厂工程师


学术兼职
担任IEEE Trans. Industrial Electronics、IEEE Trans. Power Electronics、Nonlinear Dynamics等学术刊物的论文评审人；
中国电子学会电路与系统分会混沌与非线性电路专业委员会副主任委员；
International Workshop on Chaos-Fractals Theories and Applications程序委员。



研究领域

研究方向
神经元功能性电路；
神经元网络与同步；
非线性电路与系统；
电能变换与控制技术。
个人主页
https://bochengbao.com/





教学工作
本科生课程：《电路分析》、《电力电子技术》；
研究生课程：《现代电路与系统》、《科技英语及论文写作》。



科研项目
纵向项目
省高校优秀科学创新团队项目。团队名称：忆阻电路与智能网络，资助金额：30万元，起止年月：2020.07-2022.06。
国家自然科学基金面上项目。项目名称：忆阻电路的复杂动力学与多稳定状态控制策略研究，项目编号：**，资助金额：57万元，起止年月：2018.01-2021.12。
国家自然科学基金面上项目。项目名称：记忆元件建模与记忆电路动力学研究，项目编号：**，资助金额：80万元，起止年月：2013.01-2016.12。
国家自然科学基金面上项目。项目名称：脉冲序列调制开关功率变换器控制技术研究，项目编号：**，资助金额：56万元，起止年月：2012.01-2015.12。
江苏省基础研究计划（自然科学基金）面上项目。项目名称：记忆电路动力学理论研究，项目编号：BK**，资助金额：10万元，起止年月：2012.07-2015.06。
江苏省基础研究计划（自然科学基金）面上项目。项目名称：光滑混沌信息动力学理论及其应用，项目编号：BK**，资助金额：9万元，起止年月：2009.01-2011.12。
常州市基础研究计划（自然科学基金）项目。项目名称：LED照明电源脉冲序列控制技术研究，项目编号：CJ**，资助金额：5万元，起止年月：2012.01-2014.12。
常州市基础研究计划（自然科学基金）项目。项目名称：开关功率变换器的变频电压纹波控制技术研究，项目编号：CJ**，资助金额：5万元，起止年月：2015.07-2017.06。




奖励与荣誉

奖励：
“磁性电子元器件参数宽频高精度智能测试关键技术及应用,”中国机械工业科学技术奖二等奖，证书编号：R**-06, 2019.10.
“高精度电参数测试关键技术及设备,”江苏省科学技术奖三等奖，2019.09.
“忆阻应用电路与多稳定性理论,”2018年度江苏省教育科学研究成果奖（高校自然科学类）一等奖, 2018.8.
“Extreme multistability in a memristive circuit,” “IET Premium Award Winner 2018”最佳论文奖, 2018. 6.
“‘双引擎四驱动’校企联合培养机制的构建与实践,”江苏省教学成果奖（高等教育类）二等奖, 2017.10.
“电力电子变换器建模与控制方法,”高等学校科学研究优秀成果奖(科学技术)自然科学奖二等奖, 证书号：2015-097, 2016.02.
“智能燃气无线调压装置,” 江苏省科学技术奖三等奖, 证书号：2013-3-8-R4, 2014.01.
“智能燃气无线调压装置,” 常州市科学技术奖二等奖, 证书号：2013-2-10-R4, 2014.03.
荣誉：
2019年立项省高校优秀科技创新团队“忆阻电路与智能网络”团队负责人，2019.11.
常州市第六届“师德标兵”称号，2019.9.
“2017年度江苏省优秀学术学位硕士学位论文”指导老师，2017.10.
“2015年度江苏省普通高等学校本专科优秀毕业设计（论文）一等奖”指导老师，2016.4.





学术成果
教材与专著
包伯成, 徐权, 包涵. 忆阻电路与多稳定性, 北京: 科学出版社, 30万字, 2018.7.
包伯成. 忆阻电路导论, 北京: 科学出版社, 20.4万字, 2014.5.
包伯成, 乔晓华. 工程电路分析基础, 北京: 高等教育出版社, 44万字, 2013.12.
包伯成. 混沌电路导论, 北京: 科学出版社, 31.75万字, 2013.1(2013.6重印).
发表论文（2018-2020年论文）
2020
“Initials-boosted coexisting chaos in a 2D Sine map and its hardware implementation,” IEEE Transactions on Industrial Informatics, 2020, doi: 10.1109/TII.2020.**.
“Bifurcation analysis and circuit implementation for a tabu learning neuron model,” AEü-International Journal of Electronics and Communications, 2020, 121: 153235.
“Symmetrically scaled coexisting behaviors in two types of simple jerk circuits,” Circuit World, 2020, doi: 10.1108/CW-02-2020-0028.
“Hyperchaos in a second-order discrete memristor-based map model,” Electronics Letters, 2020, doi: 10.1049/el.2020.1172
“Bifurcation analyses and hardware experiments for bursting dynamics in non-autonomous memristive FitzHugh-Nagumo circuit,” Science China Technological Sciences, 2020, doi:10.1007/s11431-019-1458-5.
“Hidden dynamics in a fractional-order memristive Hindmarsh-Rose model,”Nonlinear Dynamics, 2020, 100(1): 891-906.
“Memristor synapse-coupledmemristive neuronnetwork:Synchronization transition and occurrence of chimera,”Nonlinear Dynamics, 2020, 100(1): 937-950.
“Memristor initial-boosted coexisting plane bifurcations and its extreme multi-stabilityreconstitution in two-memristor-based dynamical system,” Science China Technological Sciences, 2020, 63(4): 603-613.
“Initial-induced coexisting and synchronous firing activities in memristor synapse-coupled Morris-Lecar bi-neuron network,”Nonlinear Dynamics, 2020, 99(3): 2339-2354.
“Hyperchaos, quasi-period and coexisting behaviors in second-order-memristor-based jerk circuit,” The European Physical Journal Special Topics, 2020, 229(6-7), 1045-1058.
“Initial-switched boosting bifurcations in 2D hyperchaotic map,” Chaos, 2020, 30(3): 033107.
“Memristor synapse-basedMorris-Lecar model:Bifurcation analyses and FPGA-based validations for periodic and chaotic bursting/spiking firings,” International Journal of Bifurcation and Chaos, 2020, 30(3): **.
“Flux-charge analysis of two-memristor-based Chua’s circuit: Dimensionality decreasing model for detecting extreme multistability,” IEEE Transactions on Industrial Electronics, 2020, 67(3): 2197-2206.
“Hidden bursting firings and bifurcation mechanisms in memristive neuron model with threshold electromagnetic induction,” IEEE Transactions on Neural Networks and Learning Systems, 2020, 31(2): 502-511.
“Two-dimensional sine chaotification system with hardware implementation,” IEEE Transactions on Industrial Informatics, 2020, 16(2), 887-897.
“Interpreting initial offset boosting via reconstitution in integral domain,” Chaos, Solitons and Fractals, 2020, 131: 109544.
“Spreading dynamics of an SEIR model with delay on scale-free networks,”IEEE Transactions on Network Science and Engineering, 2020, 7(1): 489-496.
2019
“Generating multi-scroll Chua’s attractors via simplified piecewise-linear Chua’s diode,”IEEE Transactions on Circuits and Systems -I: Regular Papers, 2019, 66(12): 4767-4779.
“Periodically varied initial offset boosting behaviors in a memristive system with cosine memductance,” Frontiers of Information Technology & Electronic Engineering, 2019, 20(12): 1706-1716.
“A simple non-autonomoushidden chaotic system with a switchable stable node-focus,” International Journal of Bifurcation and Chaos, 2019, 29(12): **.
“Dimensionality reduction reconstitution for extreme multistability in memristor-based Colpitts system,” Complexity, 2019, Article ID **.
“Complex dynamical behaviors of a fractional-order system based on a locally active memristor,” Complexity, 2019, Article ID **.
“Extreme multistability in memristive hyper-jerk system and stability mechanism analysis using dimensionality reduction model,” The European Physical Journal Special Topics, 2019, 228(10), 1995-2009.
“Inductor-free multi-stable Chua’s circuit constructed by improved PI-type memristor emulator and active Sallen-Key high-pass filter,” The European Physical Journal Special Topics, 2019, 228(10), 1983-1994.
“Periodically switched memristor initial boosting behaviors in memristive hypogenetic jerk system,” IEEE Access, 2019, 7: 145022-145029.
“Chaotic bursting dynamics and coexisting multi-stable firing patterns in 3D autonomousMorris–Lecar model and microcontroller-based validations,” International Journal of Bifurcation and Chaos, 2019, 29(10): **.
“Extremely slow passages in low-pass filter-based memristive oscillator,” Nonlinear Dynamics, 2019, 97: 2339–2353.
“Quasi-period, periodic bursting and bifurcations in memristor-based FitzHugh-Nagumo circuit,” AEü-International Journal of Electronics and Communications, 2019, 110, 152840.
“Non-ideal memristor synapse-coupled bi-neuron Hopfield neural network: Numerical simulations and breadboard experiments,” AEü-International Journal of Electronics and Communications, 2019, 111, 152894.
“Dimensionality reduction analysis for detecting initial effects on synchronization of memristor-coupled system,” IEEE Access, 2019, 7: 109689-109698.
“Two- memristor-based chaotic system and its extreme multistability reconstitution via dimensionality reduction analysis,” Chaos, Solitons and Fractals, 2019, 127: 354-363.
“Hybrid state variable incremental integral for reconstructing extreme multistability in memristive jerk system with cubic nonlinearity,” Complexity, 2019, Article ID **.
“Dynamical effects of memristive load on peak current mode buck-boost switching converter,” Chaos, Solitons and Fractals, 2019, 122: 69-79.
“Hidden extreme multistability and dimensionality reduction analysis for an improved non-autonomous memristive FitzHugh–Nagumo circuit,” Nonlinear Dynamics, 2019, 96(3), 1879-1894.
“Coexisting multi-stable patterns in memristor synapse-coupled Hopfield neural network with two neurons,” Nonlinear Dynamics, 2019, 95(4), 3385-3399.
“Dynamical effects of neuronactivation gradient on Hopfieldneural network: Numerical analyses and hardware experiments,” International Journal of Bifurcation and Chaos, 2019, 29(4): **.
“Memristor initial boosting behaviors in a two-memristor-based hyperchaotic system,” Chaos, Solitons and Fractals, 2019, 121: 178-185.
“Coexisting multiple firing patterns in two adjacent neurons coupled by memristive electromagnetic induction,” Nonlinear Dynamics, 2019, 95(1), 43-56.
“Bipolar pulse-induced coexisting firing patterns in two-dimensional Hindmarsh–Rose neuron model,” International Journal of Bifurcation and Chaos, 2019, 29(1): **.
“Bi-stability in an improved memristor based third-order Wien-bridge oscillator,”IETE Technical Review, 2019, 36(2):109-116.
2018
“Initial conditions-related dynamical behaviors in PI-type memristor emulator-based canonical Chua’s circuit,” Circuit World, 2018, 44(4): 178-186.
“Two-neuron-based non-autonomous memristive Hopfield neural network: Numerical analyses and hardware experiments,” AEü-International Journal of Electronics and Communications, 2018, 96, 66-74.
“Bi-stability phenomenon in constant on-time controlled buck converter with small output capacitor ESR,”IEEE Access,2018, 6(1): 46227-46232.
“State variable mapping method for studying initial-dependent dynamics in memristive hyper-jerk system with line equilibrium,” Chaos, Solitons and Fractals, 2018, 115: 313-324.
“Numerical analyses and breadboard experiments of twin attractors in two-neuron-based non-autonomous Hopfield neural network,” The European Physical Journal Special Topics, 2018, 227, 777-786.
“Third-order RLCM-four-elements-based chaotic circuit and its coexisting bubbles,” AEü- International Journal of Electronics and Communications, 2018, 94, 26-35.
“Flux-charge analysis of initial state-dependent dynamical behaviors in a memristor emulator-based Chua's circuit,” International Journal of Bifurcation and Chaos, 2018, 28(10): **.
“Crisis induced coexisting multiple attractors in a second-order non-autonomous memristive diode bridge-based circuit,” International Journal of Circuit Theory and Applications, 2018, 46(10), 1917-1927.
“AC induced coexisting asymmetric bursters in the improved Hindmarsh-Rose model,” Nonlinear Dynamics, 2018, 92(4): 1695–1706.
“Chaos in a second-order non-autonomous Wien-bridge oscillator without extra nonlinearity,” Circuit World, 2018, 44(3): 108-114.
“Symmetric periodic bursting behavior and bifurcation mechanism in a third-order memristive diode bridge-based oscillator,” Chaos, Solitons and Fractals, 2018, 109: 146-153.
“Memristor-based canonical Chua’s circuit: Extreme multi-stability in voltage-current domain and its controllability in flux-charge domain,” Complexity, 2018, Article ID **.
“Coexistence of multiple attractors in an active diode pair based Chua’s circuit,” International Journal of Bifurcation and Chaos, 2018, 28(2): **.
“Three-dimensional memristive Hindmarsh-Rose neuron model with hidden coexisting asymmetric behaviors,” Complexity, 2018, Article ID **.
“Coexistence of multiple bifurcation modes in memristive diode-bridge based canonical Chua’s circuit,”International Journal of Electronics, 2018,105(7): 1159-1169.
“Controlling extreme multistability of memristor emulator-based dynamical circuit in flux-charge domain,” Nonlinear Dynamics, 2018, 91(2): 1395-1412.
“Initial condition-dependent dynamics and transient period in memristor-based hypogenetic jerk system with four line equilibria,” Communications in Nonlinear Science and Numerical Simulation, 2018, 57: 264-275.
“Numerical and experimental confirmations of quasi-periodic behavior and chaotic bursting in third-order autonomous memristive oscillator,” Chaos, Solitons and Fractals, 2018, 106: 161-170.
专利成果
“一种MCLC型的忆阻混沌信号发生装置,”发明专利,专利号：ZL-2015-1-**.A,授权公告日:2018.01.12.

“基于广义忆阻Colpitts振荡器的混沌信号发生器,”发明专利,申请号：ZL-2014-1-**.9,授权公告日：2017.07.14.
“基于Jerk电路形式的多涡卷混沌信号发生装置及其方法,”发明专利,专利号：ZL-2014-1-**.X,授权公告日：2017.01.25.
“一种开关变换器的恒频固定关断时间控制装置,”发明专利,专利号：ZL-2014-1-**.0,授权公告日：
2016.08.17.
“一种忆阻电路与非线性电路可切换的混沌信号源,”发明专利,专利号：ZL-2013-1-**.7,授权公告日：2016.08.17.
“一种记忆系统混沌信号产生器,”发明专利,专利号：ZL-2013-1-**.9,授权公告日：2015.08.26.
“记忆系统混沌信号产生器,”发明专利,专利号：ZL-2012-1-**.X,授权公告日：2015.06.24.
“单参数鲁棒混沌信号源,”发明专利,专利号：ZL-2012-1-**.5,授权公告日：2015.04.22.
“低峰均功率比的混沌信号的生成方法,”发明专利,专利号：ZL-2009-1-**.6,授权公告日：
2012.07.25.
“混沌信号发生电路,”发明专利,专利号：ZL-2010-1-**.8,授权公告日：2012.05.16.
“混沌信号产生器,”发明专利,专利号：ZL-2010-1-**.1,授权公告日：2012.02.15.
“多体系混沌信号发生器,”发明专利,专利号：ZL-2010-1-**.9,授权公告日：2011.11.23.
“动态幅度线性可调的混沌信号源,”发明专利,专利号：ZL-2010-1-**.3,授权公告日：2011.09.28.