江苏省振动与噪声技术工程实验室
一、实验室简介
江苏省振动与噪声技术工程实验室依托江苏大学力学一级博士点和博士后流动站,聚焦高端装备及交通能源等领域的振动与噪声控制重大需求,重点开展振动与噪声分析、减振降噪、在线监测与故障诊断、智能维运等方面的理论和应用研究。
实验室得到了国家重点学科(农业电气化与自动化学科)和国家重点(培育)学科(机械制造及其自动化)及相关一级博士点包括控制科学与工程、车辆工程、材料科学与工程的大力支持,已形成一支产学研紧密结合科研团队。
实验室先后主持了二十余项国家及部省级课题,包括国家自然科学基金重点、面上及青年项目、国际合作项目等,承担了三十余项企业委托项目,在振动控制、噪声抑制等方面取得了丰硕的成果,具有自主知识产权的技术机械制造等相关行业得到较为广泛的应用。
二、主要研究方向
振动噪声分析及其控制
工程结构的在线监测与故障诊断
振动能量采集技术
非线性振动理论及其应用
三、科研团队简介
(1)实验室主任
毕勤胜,教授/博导,兼任中国振动工程学会非线性振动专业委员会主任委员、江苏省力学学会副理事长、江苏省振动工程学会副理事长。发表SCI收录论文近400篇,出版专著1部,主持国家自然科学基金11项,其中重点、青年及专项各1项,获部省级科技进步二等奖2项,江苏省力学学会科学技术奖特等奖1项,江苏省行业领域优秀科技进展1项。
(2) 实验室成员
实验室拥有一支结构合理、特色鲜明的高水平科研团队。现有专任教师 16 人,其中教授 7 人、副教授 4 人、讲师 5 人。在站博士后6人,在读硕博士研究生40余人。团队入选江苏大学“科技创新团队”。
实验室部分成员合影
表1:实验室成员列表(部分)
| 姓名 | 性别 | 职称 | 从事专业 | 所在单位 |
| 毕勤胜 | 男 | 教授/博导 | 动力学与控制 | 江苏大学 |
| 张正娣 | 女 | 教授/博导 | 动力学与控制 | 江苏大学 |
| 陈章耀 | 男 | 教授/硕导 | 动力学与控制 | 江苏大学 |
| 张晓芳 | 女 | 教授/硕导 | 动力学与控制 | 江苏大学 |
| 韩修静 | 男 | 教授/博导 | 动力学与控制 | 江苏大学 |
| 姜文安 | 男 | 教授/博导 | 动力学与控制 | 江苏大学 |
| 季 颖 | 女 | 教授/博导 | 动力学与控制 | 江苏大学 |
| 宋敉淘 | 男 | 副教授/硕导 | 动力学与控制 | 江苏大学 |
| 马新东 | 男 | 副教授/硕导 | 动力学与控制 | 江苏大学 |
| 彭 淼 | 女 | 副教授/硕导 | 动力学与控制 | 江苏大学 |
| 韩 猛 | 男 | 副教授/硕导 | 动力学与控制 | 江苏大学 |
| 刘 帽 | 男 | 讲师/硕导 | 动力学与控制 | 江苏大学 |
| 瞿 汭 | 男 | 讲师/硕导 | 动力学与控制 | 江苏大学 |
| 李 响 | 男 | 讲师/硕导 | 动力学与控制 | 江苏大学 |
| 顾晓军 | 男 | 讲师/硕导 | 动力学与控制 | 江苏大学 |
| 夏逸波 | 男 | 讲师 | 动力学与控制 | 江苏大学 |
四、团队获批的部分科研项目(按时间顺序)
表2:获批的部分科研项目
| 序号 | 项目来源 | 项目编号 | 项目名称 | 负责人姓名 | 项目开始年月 | 项目结束年月 |
| 1 | 国家自然科学基金 | 10872080 | 含多时间尺度非线性振动系统的若干问题 | 毕勤胜 | 200901 | 201112 |
| 2 | 国家自然科学基金 | 20976075 | 含多时间尺度非线性振荡系统的复杂行为研究 | 毕勤胜 | 201001 | 201212 |
| 3 | 国家自然科学基金 | 21276115 | 反应蒸馏过程的非线性分析及其控制 | 毕勤胜 | 201301 | 201612 |
| 4 | 国家自然科学基金 | 11472115 | 非线性切换系统的复杂行为及其机理 | 毕勤胜 | 201501 | 201812 |
| 5 | 国家自然科学基金 | 10972091 | 非光滑系统的非常规分岔研究 | 张正娣 | 201001 | 201212 |
| 6 | 国家自然科学基金 | 11272135 | 非光滑连续动力系统的不同尺度效应及其分岔机理研究 | 张正娣 | 201301 | 201612 |
| 7 | 国家自然科学基金 | 11472116 | 高余维分岔下簇发振荡及其机理研究 | 张正娣 | 201501 | 201812 |
| 8 | 国家自然科学基金 | 11202085 | 慢变激励下混合模式振动的动力学机理研究 | 韩修静 | 201301 | 201512 |
| 9 | 国家自然科学基金 | 11572141 | 基于延迟分岔的混合模式振动的动力学机理 | 韩修静 | 201601 | 201912 |
| 10 | 国家自然科学基金 | 11302086 | 非光滑连续系统的簇发振荡模式及其分岔机理 | 季颖 | 201401 | 201612 |
| 11 | 国家自然科学基金 | 11474134 | 动力学行为的全局光相位成像方法 | 季颖 | 201501 | 201812 |
| 12 | 国家自然科学基金 | 11302087 | 模态跃迁下斜拉桥风雨激振研究 | 宋敉淘 | 201401 | 201612 |
| 13 | 国家自然科学基金
重点项目 | 11632008 | 多尺度耦合非线性动力系统的复杂行为及其机理研究 | 毕勤胜 | 201701 | 202112 |
| 14 | 国家自然科学基金 | 12372012 | 分段光滑系统的分岔结构及动力学行为研究 | 张正娣 | 202401 | 202712 |
| 15 | 国家自然科学基金 | 11872189 | 非光滑Filippov系统的局部和全局动力学行为研究 | 张正娣 | 201901 | 202212 |
| 16 | 国家自然科学基金 | 12272150 | 多种非线性因素下的谐波齿轮减速器快慢动力学机理与控制研究 | 韩修静 | 202301 | 202612 |
| 17 | 国家自然科学基金 | 12072132 | 关于脉冲式爆炸及其诱导的混合模式振荡研究 | 韩修静 | 202101 | 202412 |
五、团队获奖
| 序号 | 奖励名称 | 获奖项目 | 完成人 | 获奖年度 | 获奖等级 |
| 1 | 江苏省力学学会科学技术奖特等奖 | 分岔理论及不同尺度耦合非线性系统的分岔机理研究 | 毕勤胜 | 2023 | 特等 |
| 2 | 江苏省行业领域优秀科技进展(基础研究领域) | 不同尺度耦合动力系统理论 | 毕勤胜 | 2022 | |
| 3 | 江苏省科学技术进步奖 | 非线性动力系统的若干问题 | 毕勤胜 | 2015 | 三等 |
获奖证书
六、部分发表论文(近五年)
2026年度:
[1]Bian Mingli, Jiang Wenan, Bi Qinsheng, Data-Driven Modeling and Response Prediction of Cut-Out Type Piezoelectric Beams. Micromachines, 2026, 17(4): p. 450.
[2]Zhang Miaorong, Jiang Wenan, Bi Qinsheng, Chen Liqun, Compound Bursting of a Bio-inspired Nonlinear Oscillator Under Fast-slow Excitation and Time Delay. Journal of Vibration Engineering & Technologies, 2026, 14(3): p. 134.
[3]Zhang Chun, Wang Zhixiang, Bi Qinsheng, Bursting oscillations in a modified Chua's circuit of Filippov type with double-frequency excitation. Nonlinear Dynamics, 2026, 114(4): p. 272.
[4]Lyu Weipeng, Jiang Haibo, Li Shaolong, Bi Qinsheng, The Mechanism of Novel Bursting Patterns in an Externally and Parametrically Excited Hybrid Rayleigh-van der Pol-Duffing System. International Journal of Bifurcation and Chaos, 2026, 36(05).
[5]Zhang Xiangyu, Li Minglong, Xu Xin, Bi Qinsheng, Fine Structures in Chaotic Bursting Attractors Induced by Slow-Fast Dynamics with Different Kinds of Nonlinearity. International Journal of Bifurcation and Chaos, 2026, 36(04).
2025年度:
[6]Zhang Miaorong, Miao Xinghua, Chen Xiaokang, Bi Qinsheng, Dynamical behaviors in a system with the double Hopf bifurcation under slow-fast excitations and the enveloping slow-fast analysis method. International Journal of Modern Physics C, 2025.
[7]Zhao Chengrui, Song Jin, Han Xiujing, Bi Qinsheng, Amplitude modulation leads to bursting oscillations with variable large amplitude in the Mathieu-van der Pol-Duffing system. Nonlinear Dynamics, 2025, 114(1): p. 9.
[8]Gu Xiaojun., Bi Qingsheng, Zhang Wei., Han Xiujing, Chen Z. Y., Xu W. J., Vibration and Buckling of Composite Cantilever Plates Considering Three Distinct Cross-sectional Configurations. International Journal of Structural Stability and Dynamics, 2025.
[9]Yang Le, Zhang Xiaofang, Jiang Wenan, Bi Qinsheng, Experimental study of a T-shaped piezoelectric beam with stoppers for broadband energy harvesting. International Journal of Dynamics and Control, 2025, 13(12): p. 412.
[10]Gai Pan-Pan, Dai Jun, Xu Zhao-Dong, Bi Qin-Sheng, Guan Qing-Song, A Novel Two-State Active Tuned Mass Damper Inerter Control of High-Flexibility Long-Span Bridges. Journal of Structural Engineering, 2025, 151(11): p. 05025005.
[11]Chen Yeqiang, Zhang Miaorong, Zhang Xiaofang, Bi Qinsheng, Regular Oscillations Embedded in Chaotic Attractor Induced by Slow-Fast Dynamics. Journal of Vibration Engineering & Technologies, 2025, 13(7): p. 490.
[12]Gai Pan-Pan, Dai Jun, Yang Yang, Bi Qin-Sheng, Guan Qing-Song, Zhang Gui-Yu, Performance Enhancement of Seismically Protected Buildings Using Viscoelastic Tuned Inerter Damper. Actuators, 2025, 14(8): p. 360.
[13]Han Meng, Deng Lansong, Wang Zhichao, Zhang Xingyu, Zhou Chuwei, Silberschmidt Vadim V., Bi Qinsheng, Thermal-mechanical-chemical coupling behaviors of carbon/ carbon composites. Vacuum, 2025, 239: p. 114353.
[14]Chen Yeqiang, Zhang Miaorong, Zhang Xiaofang, Bi Qinsheng, Influence of high order nonlinearity on chaotic bursting structure in slow-fast dynamics. Chaos Solitons & Fractals, 2025, 194: p. 116222.
[15]Zhang Miaorong, Zhou Yin, Bi Qinsheng, Guo Hongliu, On the influence of natural frequency on the double Hopf bifurcation system forced by excitations with a low frequency. Pramana-journal of Physics, 2025, 99(1): p. 25.
[16]Chen Yeqiang, Zhang Xiaofang, Bi Qinsheng, Local Regularity in Chaotic Bursting Oscillations Induced by Stable Attractors in Fast Subsystem. International Journal of Bifurcation and Chaos, 2025, 35(05): p. 2530013.
[17]Song Jin, Wei Mengke, Zuo Wenjie, Han Xiujing, Bi Qinsheng, Effects of pulse amplitude modulation on relaxation oscillations in the Duffing system. Communications in Nonlinear Science and Numerical Simulation, 2025, 143: p. 108606.
[18]Han Meng, Zhang Xingyu, Wang Zhichao, Zhou Chuwei, Silberschmidt Vadim V., Bi Qinsheng, Bending behavior of needle-punched carbon/carbon composites: Efficient computation model. Zamm-zeitschrift fur Angewandte Mathematik und Mechanik, 2025, 105(2).
[19]Gu Zhihang, Jiang Wenan, Chen Liqun, Bi Qinsheng, Anew analytical solution of a bistable Duffing oscillator under large amplitude periodic vibrations. International Journal of Non-linear Mechanics, 2025, 170: p. 104969.
[20]Li Xiang, Jiang Wen-An, Han Xiujing, Bi QinSheng, Chen Li-Qun, Nonlinear modal interactions of a linear oscillator coupled to a cubic nonlinear oscillator in the gravitational field. Communications in Nonlinear Science and Numerical Simulation, 2025, 142: p. 108554.
[21]Song Jin, Zhang Xiaofang, Han Xiujing, Bi Qinsheng, Effects of overmodulation on the slow progresses of relaxation oscillations in the Duffing system. Nonlinear Dynamics, 2025, 113(9): pp. 9239-9256.
[22]Wang Ying, Wang Zhixiang, Zhang Chun, Bi Qinsheng, Bursting oscillations with multiple crossing bifurcations in a piecewise-smooth system. International Journal of Non-linear Mechanics, 2025, 168: p. 104938.
[23]Wang Zhixiang, Wang Ying, Zhang Chun, Bi Qinsheng, Bursting oscillations with non-smooth Hopf-fold bifurcations of boundary equilibria in a piecewise-smooth system. Nonlinear Dynamics, 2025, 113(8): pp. 8345-8365.
[24]Zhao Chengrui, Song Jin, Wei Mengke, Han Xiujing, Bi Qinsheng, Bursting dynamics induced by amplitude-modulated excitation in the composite nonlinear oscillator. Nonlinear Dynamics, 2025, 113(5, SI): pp. 4607-4617.
2024年度:
[25]Han Meng, Zhang Xingyu, Wang Zhichao, Silberschmidt Vadim V., Bi Qinsheng, Thermo-mechanical coupling behavior of needle-punched carbon/carbon composites. Science and Engineering of Composite Materials, 2024, 31(1): p. 20240045.
[26]Li Junchao, Zhang Xiaofang, Jiang Wenan, Bi Qinsheng, Chen Liqun, A novel cut-out piezoelectric beam with limiters for broadband energy harvesting. International Journal of Non-linear Mechanics, 2024, 167: p. 104919.
[27]Zhao Jiahao, Sun Hanyu, Zhang Xiaofang, Han Xiujing, Han Meng, Bi Qinsheng, Frequency switching leads to distinctive fast-slow behaviors in Duffing system. Chaos Solitons & Fractals, 2024, 186: p. 115217.
[28]Song Jin, Sun Hanyu, Han Xiujing, Zou Yong, Bi Qinsheng, Overmodulation causes a variation in the number of jumps in the Duffing system. Physica Scripta, 2024, 99(7): p. 075248.
[29]Zhang Xiangyu, Zhang Xiaofang, Bi Qinsheng, Bursting Oscillations Induced by Coexisted Cycles Separated by Fold Limit Cycle Bifurcation. Journal of Vibration Engineering & Technologies, 2024, 12(SUPPL 1, 1): pp. 573-583.
[30]Wang Zhixiang, Zhang Chun, Bi Qinsheng, Bursting oscillations with a codimension-2 non-smooth bifurcation in a piecewise-smooth system of Filippov type. Chaos Solitons & Fractals, 2024, 184: p. 115040.
[31]Jiang Wen-An, Sheng Long-Jie, Gu Ye-Tong, Bi QinSheng, Chen Li-Qun, A Bidirectional T-Shaped Energy Harvester: Modeling, Simulation, and Experiment. Energy Technology, 2024, 12(7).
[32]Xu Xin, Zhang Xiaofang, Bi Qinsheng, Computation of Normal Form and Unfolding of Codimension-3 Zero-Hopf-Hopf Bifurcation. International Journal of Bifurcation and Chaos, 2024, 34(05).
[33]Gu X. J., Bi Q. S., Zhang W., Zhang Y. F., Han X. J., Optimization of vibration analysis for functionally graded graphene platelets (FGGP) reinforced twisted cantilever thin shallow shell blades subjected to axial loading. International Journal of Mechanics and Materials in Design, 2024, 20(5): pp. 933-958.
[34]Wang Dongbao, Wang Junfeng, Wang Daorui, Bi Qinsheng, Electrically driven coalescence of charged conical droplet in non-uniform electric field. Chemical Engineering Science, 2024, 292: p. 119977.
[35]Song Jin, Jiang Yandan, Han Xiujing, Bi Qinsheng, Amplitude modulation leads to the disappearance of relaxation oscillations in the Duffing system. Physica Scripta, 2024, 99(3): p. 035203.
[36]Lyu Weipeng, Li Shaolong, Huang Juanjuan, Bi Qinsheng, Occurrence of mixed-mode oscillations in a system consisting of a Van der Pol system and a Duffing oscillator with two potential wells. Nonlinear Dynamics, 2024, 112(8): pp. 5997-6013.
[37]Gai Pan-Pan, Xu Zhao-Dong, Bi Qin-Sheng, Xie Zi-Cong, Dai Jun, Jiang Wen-An, A Generalized Dynamic Analysis Method for the Linear Structural System with Viscoelastic Elements. International Journal of Structural Stability and Dynamics, 2024, 24(23).
[38]Wei Mengke, Han Xiujing, Bi Qinsheng, Fast-slow dynamics analysis in an externally excited smooth and discontinuous oscillator with a pair of irrational nonlinearities. Physica Scripta, 2024, 99(1): p. 015248.
2023年度:
[39]Chen Zhangyao, Ma Xindong, Bi Qinsheng, Complex bursting oscillations induced by pulse-shaped explosion and integer frequency ratios in a Rayleigh-van der Pol system. Pramana-Journal of Physics, 2023, 97(3): p. 114.
[40]Ding Muchuan, Han Xiujing, Bi Qinsheng, Numerical investigation of the origin of compound relaxation oscillations in a nonlinear oscillator. Nonlinear Dynamics, 2023, 111(15): p. 13853-13864.
[41]Ge Yawei, Gou Junting, Zhang Xiaofang, Bi Qinsheng, Occurrence of non-smooth bursting oscillations in a Filippov system with slow-varying periodic excitation. Pramana Journal of Physics, 2023, 97(1): p. 38.
[42]Gu Xiaojun, Zhang Wei., Bi Qinsheng, Nonlinear analysis of a rotating pre-twisted composite blade reinforced with functionally graded graphene platelets under axial and transverse excitations. Nonlinear Dynamics, 2023, 111(14): p. 12947-12972.
[43]Han Meng, Zhou Chuwei, Silberschmidt Vadim V, Bi Qinsheng, Oxidation behaviour and residual mechanical properties of carbon/carbon composites. Carbon Letters, 2023, 33(4): p. 1241-1252.
[44]Han, Xiujing, Bi Qinsheng, Effects of amplitude modulation on mixed-mode oscillations in the forced van der Pol equation. Nonlinear Dynamics, 2023, 111(14): p. 12921-12930.
[45]Han, Xiujing, Bi Qinsheng, Sliding fast-slow dynamics in the slowly forced Duffing system with frequency switching. Chaos Solitons & Fractals, 2023, 169: p. 113270.
[46]Hua, Shi, Bi Qinsheng, Bursting Oscillations in a Vector Field with Fold-Hopf Bifurcation at the Origin via Low-Frequency Excitation. Journal of Vibration Engineering & Technologies, 2023, p. 1-17.
[47]Li Hongqing, Zhang Xiaofang, Jiang Wenan, Ding Hu, Chen liqun, Bi Qinsheng, Bursting oscillation of simply supported fluid-conveying pipes. Ships and Offshore Structures, 2023, p. 1-14.
[48]Li Shaolong, Han Hongfang, Qu Rui, Lv Weipeng, Bi Qinsheng, Periodic bursting oscillations involving stick-slip motions as well as the generation mechanism in a Filippov-type slow-fast dynamical system. Pramana-Journal of Physics, 2023, 97(1): p. 22.
[49]Lv Weipeng, Li Shaolong, Chen Zhenyang, Bi Qinsheng, Bursting Dynamics in a Singular Vector Field with Codimension Three Triple Zero Bifurcation. Mathematics, 2023, 11(11): p. 2486.
[50]Song Jin, Jiang Yandan, Han Xiujing, Bi Qinsheng, Compound relaxation oscillations in Duffing oscillator driven by a low frequency amplitude-modulated excitation. Chaos Solitons & Fractals, 2023, 173: p. 113693.
[51]Wang Zhixiang, Zhang Chun, Ding Zuqin, Bi Qinsheng, From period-doubling bursting to chaotic-periodic bursting in a modified Chua's circuit. Chaos Solitons & Fractals, 2023, 174: p. 113868.
[52]Wei Mengke, Han Xiujing, Bi Qinsheng, A new route to pulse-shaped explosion of limit cycles and its induced amplitude-modulated bursting. Communications in Nonlinear Science and Numerical Simulation, 2023, 116: p. 106895.
[53]Xia Yibo, He Jingwei, Kurths Juergen, Bi Qinsheng, Slow-Fast Dynamics of a Coupled Oscillator with Periodic Excitation. International Journal of Bifurcation and Chaos, 33(08): p. 2350093.
[54]Xia Yibo, Yanchuk Serhiy, Cao Yichuan, Bi Qinsheng, Kurths Juergen, Bursting multistability induced by double-Hopf bifurcation. Chaos, 33(8): p. 083137.
[55]Zhao Heqi, Ma Xindong, Yang Weijie, Zhang Zhao, Bi Qinsheng, The mechanism of periodic and chaotic bursting patterns in an externally excited memcapacitive system. Chaos Solitons & Fractals, 2023, 171: p. 113407.
2022年度:
[56]Bi Qinsheng, Chen Shaomin, On occurrence of mixed-torus bursting oscillations induced by non-smoothness. Nonlinear Dynamics, 2022, 109(3): p. 1463-1483.
[57]Chen Chen, Yu Shenghao, Yin Bifeng, Bi Qinsheng, and Jia Hekun, Investigation of inner flow and near-field spray patterns of the non-circular diesel injector. Sadhana-Academy Proceedings in Engineering Sciences, 2022, 47(1): p. 34.
[58]Gou Junting, Zhang Xiaofang, Xia Yibo, and Bi Qinsheng, All Possible Bursting Attractors in the Neighborhood of Hopf Bifurcation Point Under Periodic Excitation. International Journal of Bifurcation and Chaos, 2022, 32(06): p. 2250079.
[59]Han Hongfang, Li Shaolong, and Bi Qinsheng, Non-Smooth Dynamic Behaviors as well as the Generation Mechanisms in a Modified Filippov-Type Chua's Circuit with a Low-Frequency External Excitation. Mathematics, 2022, 10(19): p. 3613.
[60]Han Meng, Zhou Chuwei, V. V. Silberschmidt, and Bi Qinsheng, Multiscale heat conduction and fractal oxidation behaviors of needle-punched carbon/carbon composites. Science and Engineering of Composite Materials, 2022, 29(1): p. 508-515.
[61]Han Xiujing, Song Jin, Zou Yong, and Bi Qinsheng, Small perturbation of excitation frequency leads to complex fast-slow dynamics. Chaos Solitons & Fractals, 2022, 163: p. 112516.
[62]Hua Shi, Bi Qinsheng, Slow-Fast Dynamics in a Non-smooth Vector Field with Zero-Hopf Bifurcation. Journal of Vibration Engineering & Technologies, 2022.
[63]Li Shaolong, Lv Weipeng, Chen Zhangyao, Xue Miao, and Bi Qinsheng, Slow-Fast Dynamics Behaviors under the Comprehensive Effect of Rest Spike Bistability and Timescale Difference in a Filippov Slow-Fast Modified Chua's Circuit Model. Mathematics, 2022, 10(23): p. 4606.
[64]Ma Xindong, Zhang Xiaofang, Yu Yue. and Bi Qinsheng. Compound Bursting Behaviors in the Parametrically Amplified Mathieu–Duffing Nonlinear System. Journal of Vibration Engineering & Technologies, 2022, 10(1): p. 95-110.
[65]Ma Xindong, Bi Qinsheng, and Wang Lifeng, Complex Periodic Bursting Structures in the Rayleigh-van der Pol-Duffing Oscillator. Journal of Nonlinear Science, 2022, 32(2): p. 25.
[66]Ma Xindong, Bi Qinsheng, and Wang Lifeng, Complex bursting dynamics in the cubic-quintic Duffing-van der Pol system with two external periodic excitations. Meccanica, 2022, 57(7): p. 1747-1766.
[67]Ma Xindong, Wang Lifeng, and Bi Qinsheng, Bursting behaviors induced by the bifurcation delay in a generalized parametrically forced van der Pol-Duffing system. Indian Journal of Physics, 2022, 96(14): p. 4269-4282.
[68]Ma Xindong, Zhao Heqi, and Bi Qinsheng, Novel bursting patterns induced by hysteresis loops in a one-degree-of-freedom nonlinear oscillator with parametric and external excitations. European Physical Journal-Special Topics, 2022, 231(11-12): p. 2249-2263.
[69]Ma Xindong, Zhao Heqi, and Bi Qinsheng, Novel bursting dynamics and the mechanism analysis in a mechanical oscillator. Nonlinear Dynamics, 2022, 109(3): p. 1485-1499.
[70]Song Jin, Han Xiujing, Zou Yong, Jiang Yandan, and Bi Qinsheng, Relaxation oscillation patterns induced by amplitude-modulated excitation in the Duffing system. Chaos Solitons & Fractals, 2022, 164: p. 112555.
[71]Wang Xiaoyan, Han Xiujing, Chen Zhangyao, Bi Qinsheng, Guan Shuguang, and Zou Yong, Multi-scale transition network approaches for nonlinear time series analysis. Chaos Solitons & Fractals, 2022, 159: p. 112026.
[72]Wang Zhixiang, Chen Zhangyao, and Bi Qinsheng, Bursting oscillations with bifurcations of chaotic attractors in a modified Chua's circuit. Chaos Solitons & Fractals, 2022, 165: p. 112788
[73]Wang Zhixiang, Chen Zhangyao, and Bi Qinsheng, Bursting oscillations with adding-sliding structures in a Filippov-type Chua's circuit. Communications in Nonlinear Science and Numerical Simulation, 2022, 110: p. 106368.
[74]Wei Mengke, Han Xiujing, and Bi Qinsheng, Sufficient conditions and criteria for the pulse-shaped explosion related to equilibria in a class of nonlinear systems. Chaos Solitons & Fractals, 2022, 165: p. 112749.
[75]Wei Mengke, Han Xiujing Xiujing. Ma Xindong, Zou Yong, and Bi Qinsheng, Bursting patterns with complex structures in a parametrically and externally excited Jerk circuit system. European Physical Journal-Special Topics, 2022, 231(11-12): p. 2265-2275.
[76]Wu Shuqian, Bi Qinsheng, Bursting oscillations in a slow-varying periodically excited vector field with Bogdanov-Takens bifurcation. Journal of Vibration and Control, 2022, 28(11-12): p. 1441-1452.
[77]Yu Yue, Zhou Wenyao, Zhang Zhengdi, and Bi Qinsheng, Analysis on the motion of nonlinear vibration with fractional order and time variable mass. Applied Mathematics Letters, 2022, 124: p. 107621.
[78]Zhang Chun, Ma Xindong, and Bi Qinsheng, Complex mixed-mode oscillations based on a modified Rayleigh-Duffing oscillator driven by low-frequency excitations. Chaos Solitons & Fractals, 2022, 160: p. 112184.
[79]Zhang Chun, Ma Xindong, Tang Qiaoxia, and Bi Qinsheng, Complex bifurcation structures and bursting oscillations of an extended Duffing-van der Pol oscillator. Mathematical Methods in the Applied Sciences, 2022, p. 1-17.
[80]Zhang Liping, Liu Yang, Wei Zhouchao, Jiang Haibo, and Bi Qinsheng, Hidden attractors in a class of two-dimensional rational memristive maps with no fixed points. European Physical Journal-Special Topics, 2022, 231(11-12): p. 2173-2182.
[81]Zhang Liping, Liu Yang, Wei Zhouchao, Jiang Haibo, and Bi Qinsheng, A class of two-dimensional rational maps with self-excited and hidden attractors. Chinese Physics B, 2022, 31(3): p. 030503.
[82]Zhang Liping, Liu Yang, Wei Zhouchao, Jiang Haibo, Lv Weipeng, and Bi Qinsheng, Extremely hidden multi-stability in a class of two-dimensional maps with a cosine memristor. Chinese Physics B, 2022, 31(10): p. 100503.
[83]Zhang Xiaofang, Li Hongqing, Jiang Wenan, Chen Liqun, and Bi Qinsheng, Exploiting multiple-frequency bursting of a shape memory oscillator. Chaos Solitons & Fractals, 2022, 158: p. 112000.
[84]Zhang Xiaofang, Zhang Bin, Han Xiujing, and Bi Qinsheng, On occurrence of sudden increase of spiking amplitude via fold limit cycle bifurcation in a modified Van der Pol-Duffing system with slow-varying periodic excitation. Nonlinear Dynamics, 2022, 108(3): p. 2097-2114.
[85]Zhao Heqi, Ma Xindong, Zhang Bin, and Bi Qinsheng, Bursting dynamics and the bifurcation mechanism of a modified Rayleigh-van der Pol-Duffing oscillator. Physica Scripta, 2022, 97(10): p. 105208.
[86]Zhao Jiahao, Xia Yibo, Zhang Xiaofang, and Bi Qinsheng, Influence of the Coexisting Attractors on the Slow-Fast Behaviors in the Fast Subsystem. International Journal of Bifurcation and Chaos, 2022, 32(04): p. 2230010.
[87]Jiang Wenan, Li Ye, Ma Xindong, Wang Yu, Chen Liqun, and Bi Qinsheng, Exploiting internal resonance to improve flow Energy harvesting from vortex-induced vibrations. Journal of Intelligent Material Systems and Structures, 2022, 33(3): p. 459-473.
[88]Wu Tianyi, Jiang Wenan, Chen Liqun, Bi Qinsheng. A broadband flow energy harvester induced by the wake of a bluff body. European Physical Journal Plus, 2022, 137(6): p. 650.
[89]Jiang Wenan, Han Hongfang, Chen Liqun, Bi Qinsheng, Exploiting self-tuning tristable to improve energy capture from shape memory oscillator. Journal of Energy Storage, 2022, 51: p. 104469.
[90]Chen Zhangyao, Jiang Wenan, Chen Liqun, and Bi Qinsheng, Bursting analysis of multi-stable nonlinear mechanical oscillator and its application in energy harvesting. The European Physical Journal Special Topics, 2022, 231: p. 2223-2236.
[91]Wu Tianyi, Jiang Wenan, Bi Qinsheng, Bursting energy harvesting of shape memory oscillator. Journal of Vibration Engineering & Technologies, 2022, 10(3): p. 985-994.
七、实验室的发展战略与计划
通过三年建设,新增投资1000万元,新增实验室面积1000平方米,使实验室总面积达到3000平方米;拟建成五个平台:1)振动与噪声理论与技术研究平台;2)大型装备振动与噪声技术研发平台;3)环境振动与噪声技术研发平台;4)新型声学材料研发平台;5)振动与噪声公共服务平台;建立一个高水平的科研创新团队;形成一批具有自主知识产权的学术科研成果,力争本实验室整体上达到国内先进水平,成为我国振动与噪声的理论发展基地和技术研发基地。
通过5-8年的进一步建设,力争使研发平台达到国际先进水平,研发团队成为省级优秀科技创新团队,形成一批具有自主知识产权的科研成果,本实验室整体上达到国内领先水平,成为我国知名的振动与噪声的理论发展基地和技术研发基地。
八、实验室的拟建设内容与规模
(1)建设内容
围绕国家 “十五五”发展规划纲要,以满足航空航天、汽车、轨道交通等领域装备制造和重大工程需求以及环境振动与噪声治理为导向,通过三年建设,力争建立国内先进的振动与噪声技术研发平台。
拟重点建设五个平台:1)振动与噪声理论与技术研究平台;2)大型装备振动与噪声技术研发平台;3)环境振动与噪声技术研发平台;4)新型声学材料研发平台;5)振动与噪声公共服务平台。形成一支结构合理、富有创新精神、团结合作、高水平的学术团队,造就1~2名在国内有一定影响的中青年学术带头人,2~3名在国内有影响的学术骨干,为江苏省在该领域培养博士和硕士研究生50名以上,力争获省级以上优秀博士学位论文1~2篇。
(2)建设规模
项目总经费新增投入1000万元,使总投入达5000万元。项目建设场地在江苏大学土木工程与力学学院大楼,将新增实验室面积1000平方米,使实验室总面积达到3000平方米,建成五个研发平台;承担国家、省部级科研项目15~20项,三年科研总经费800万元以上;申请国家发明专利50件以上,发表高水平论文60篇以上;获省、部级科技奖励2~3项;建立一个高水平的科研创新团队;形成一批具有自主知识产权的学术科研成果,力争本实验室整体上达到国内先进水平。
