2019
2018
肖庆雨,周加喜,徐道临,王凯.一种六自由度准零刚度隔振平台[J].振动与冲击,2019,38(01):258-264.
徐道临, 戴超, 张海成. 多模块浮体 ADAMS 动力学仿真及连接器对响应特性的影响[J]. 振动工程学报, 2018 (2018 年 03): 456-467.
Xu D, Zhang H, Xia S, et al. Nonlinear dynamic characteristics of a multi-module floating airport with rigid-flexible connections[J]. Journal of Hydrodynamics, 2018, 30(5): 815-827.
Xu D, Xia S, Zhang H, et al. Adaptive optimal control of multi-modular floating platforms in random seas[J]. Nonlinear Dynamics, 2018, 91(2): 863-876.
2016
2015
徐道临, 成传望, 周加喜. 屈曲板型准零刚度隔振器的设计和特性分析[J]. 湖南大学学报 (自然科学版), 2014, 41(8): 17-22.
徐道临, 周杰, 周加喜, 等. 碟形橡胶准零刚度隔振器的设计和特性分析[J]. 湖南大学学报 (自然科学版), 2015 (8): 4.
王毅, 徐道临, 周加喜. 滚球型准零刚度隔振器的特性分析[J]. 振动与冲击, 2015, 34(4) : 142-147.
2014
徐道临, 余奇平, 周加喜, 等. 准零刚度隔振系统跳跃频率区间隔振研究[J]. 中国机械工程, 2014, 25(2): 230-235.
徐道临, 张月英, 周加喜, 等. 一种准零刚度隔振器的特性分析与实验研究[J]. JOURNAL OF VIBRATION AND SHOCK, 2014, 33(11).
王心龙,周加喜,徐道临.一类准零刚度隔振器的分段非线性动力学特性研究[J].应用数学和力学,2014,35(01):50-62.
张海成, 刘春嵘, 徐道临, 等. 机翼失速颤振抑制的合成射流相位控制方法[J]. 振动工程学报, 2014, 27(5): 661-667.
胡振, 徐道临, 张海成, 等. 合成射流抑制机翼失速颤振的频率控制方法[J]. 机械科学与技术, 2014, 33(7): 1105-1110.
徐道临, 卢超, 张海成. 海上浮动机场动力学建模及非线性动力响应特性[J]. 力学学报, 2015, 47(2): 289-300.
周加喜, 徐道临. 单层准零刚度浮筏隔振特性分析及混沌化[J]. 中国科技论文, 2014, 9(8): 911-915.
2013
2012
刘春嵘, 冀建飞, 徐道临. 反共振流体浮筏的隔振特性研究[J]. 力学与实践, 2012, 34(2): 49-53.
Zhang J, Xu D, Zhou J, et al. Chaotification of vibration isolation floating raft system via nonlinear time-delay feedback control[J]. Chaos, Solitons & Fractals, 2012, 45(9-10): 1255-1265.
2000-2010
序号 | 论文题目 | 刊物名称 | 卷(期),页 | 作者 |
1 | Control of Projective Synchronization in Chaotic Systems | Physical Review E | 63 27201-27204 | D. Xu |
2 | Stability Criterion for Projective Synchronization in Three Dimensional Systems | Physics Letters A | 282 175-179 | Z. Li and D. Xu |
3 | Manipulating the Scaling Factor of Projective Synchronization in Three-dimensional Chaotic System | Chaos
| 11(3) 439-442 | D. Xu, Z. Li and S.R. Bishop |
4 | Controlled Projective Synchronization in Non-Partially-Linear Chaotic Systems | International Journal of Bifurcation and Chaos | 12(6) 1395-1402 | D. Xu and Z. Li |
5 | Estimation of Periodic-like Motions of Chaotic Evolutions Using Detected Unstable Periodic Patterns | Pattern Recognition Letters | 23 245-252 | D. Xu, Z. Li, S. R. Bishop and U. Galvanetto |
6 | Criteria For The Occurrence Of Projective Synchronization In Chaotic Systems Of Arbitrary Dimension | Physics Letters A | 305 167-172 | D. Xu, W.L. Ong and Z. Li |
7 | Controlling the ultimate state of projective synchronization in chaotic systems of arbitrary dimension | Physical Review E | 66 046218 | D. Xu and C.Y. Chee |
8 | Control of the Formation of Projective Synchronisation in Lower-Dimensional Discrete-Time System | Physics Letters A | 318 112-118 | C.Y. Chee and D. Xu |
9 | Chaotic encryption with transient dynamics induced by pseudo-random switching keys | International Journal of Bifurcation and Chaos | 14(10) 3625-3631 | D. Xu and C.Y. Chee |
10 | A Necessary Condition of Projective Synchronization In Discrete-time Systems of Arbitrary Dimensions | Chaos Solitons & Fractals | 22(1) 175-180 | D. Xu, C.Y. Chee and C. Li |
11 | A zero-crossing approach to uncover the mask by chaotic encryption with periodic modulation | Chaos Solitons & Fractals | 21(5) 1129-1134 | C.Y. Chee, D. Xu and S.R. Bishop |
12 | A secure communication scheme using projective chaos synchronization | Chaos Solitons & Fractals | 22(2) 477-481 | Z. Li and D. Xu |
13 | Observer-based control for full-state projective synchronization of a general class of chaotic maps in any dimension | Physics Letters A | 333(5-6) 420-425 | G. Wen and D. Xu |
14 | Secure digital communication using controlled projective synchronisation of chaos | Chaos Solitons & Fractals | 23 1063-1070 | C.Y. Chin and D. Xu |
15 | Nonlinear Observer Control for Full-State Projective Synchronization in Chaotic Continuous-time Systems | Chaos Solitons & Fractals
| 23 71-77 | G. Wen and D. Xu |
16 | Synchronization of complex dynamical networks with nonlinear inner-coupling functions and time delays | Progress of Theoretical Physics | 11(4) 749-761 | C.P. Li, W.G. Sun and D. Xu |
17 | Chaos synchronization of Chua system with a fractional order | Physica A: Statistical Mechanics and its Applications | 360 171-185 | C.P. Li, W.H. Deng and D. Xu |
18 | Chaotic encryption using discrete-time synchronous chaos | Physics Letters A | 348 284-292 | C.Y. Chee and D. Xu |
19 | Transmission of M-ary digital signals using Controlled projective synchronization of chaos | IEE Proceedings. G, Circuit, Devices and System | 153 257-360 | C.Y. Chee and D. Xu |
20 | On Creation of Hopf bifurcations in discrete-time nonlinear systems | Chaos | 12(2) 350-355 | G. Wen, D. Xu and X. Han |
21 | Control of Degenerate Hopf Bifurcations in Three-dimensional Maps | Chaos | 13(2) 486-494 | G. Wen, D. Xu, and J. Xie |
22 | Designing Hopf bifurcations into nonlinear discrete-time systems via feedback control | International Journal of Bifurcation and Chaos | 14(7) 2283-2293 | G. Wen and D. Xu |
23 | Implicit Criteria of Eigenvalue Assignment and Transversality for Bifurcation Control in Four-dimensional Maps | International Journal of Bifurcation and Chaos | 14(10) 3489-3503 | G. Wen and D. Xu |
24 | Feedback Control of Hopf-Hopf Interaction Bifurcation with development of Torus Solutions in high-dimensional maps | Physics Letters A | 321 24-33 | G. Wen and D. Xu |
25 | Onset of Degenerate Hopf Bifurcation in a Vibro-impact Oscillator | Journal of Applied Mechanics | 71 579-581 | G. Wen, J. Xie and D. Xu |
26 | Controlling Hopf bifurcations of discrete-time systems in resonance | Chaos Solitons & Fractals | 23 1865-1877 | G. Wen, D. Xu and J. Xie |
27 | Control Algorithm for Creation of Hopf Bifurcations in Continuous-Time Systems of Arbitrary Dimension | Physics Letters A | 337 93-100 | G. Wen and D. Xu |
28 | Estimation of initial conditions and parameters of a chaotic evolution process from a short time series | Chaos | 14(4) 1050-1055 | F. Lu, D. Xu and G. Wen |
29 | Tracing initial conditions, historical evolutionary path and parameters of chaotic processes from a short segment of scalar time series | Chaos Solitons & Fractals | 24 265-271 | F. Lu, D. Xu and G. Wen |
30 | An approach of parameter estimation for non- synchronous systems | Chaos Solitons & Fractals | 25 361-366 | D. Xu and F. Lu |
31 | Spatiotemporal system reconstruction using Fourier spectral operators and structure selection techniques | Chaos | 19 043122 | Xu DL, Khanmohamadi O |
32 | Spatiotemporal System Identification on Non-periodic Domains with Chebyshev Spectral Operators and System Reduction Algorithms | Chaos | 19 033117 | Khanmohamadi O, Xu DL |
33 | Identification of spring-force factors of suspension systems using progressive neural network on a validated computer model | Inverse Problems in Engineering | 11(1) 55-74 | Xu D, Yap FF, Han X, et al. |
34 | A computational inverse technique for material characterization of a functionally graded cylinder using a progressive neural network | Neurocomputing | 51 341-360 | Han X, Xu D, Liu GR |
35 | 铁精矿浆体管道输送特性研究 | 金属材料与冶金工程 | 38(3) 45-48 | 邹伟生 |
1990-2000
序号 | 论文题目 | 刊物名称 | 卷(期),页 | 作者 |
1 | Steering dynamical trajectories to target a designed state | Chaos Solitons & Fractals | 4(10) 1931-1942 | D. Xu and S.R. Bishop |
2 | A contraction-mapping-based control approach to stabilize chaotic systems," International Journal of Bifurcation and Chaos | International Journal of Bifurcation and Chaos | 5(6) 1741-1748 | D. Xu and S.R. Bishop |
3 | Switching between orbits in a periodic window | Physical Review E | 54(6) 6940-6943 | D. Xu and S.R. Bishop |
4 | Controlling tumbling chaos in parametrically excited pendulum | Proceedings of the Royal Society of London A | 452 1789-1806 | S.R. Bishop, D. Xu and M. J. Clifford |
5 | Self-locating control of chaotic systems using Newton algorithm | Physics Letters A | 210 273-278 | D. Xu and S.R. Bishop |
6 | Control of chaos in noisy flows | Physical Review E | 54(4) 3204-3210 | S.R. Bishop and D. Xu |
7 | Stabilizing the parametrically excited pendulum onto high order periodic orbits | Journal of Sound and Vibration | 194 287-293 | S.R. Bishop and D. Xu |
8 | The use of control to eliminate sub-harmonic and chaotic impacting motions of a driven beam | Journal of Sound and Vibration | 205 223-234 | S.R. Bishop and D. Xu |
9 | Use of control to maintain period-1 motions during wind-up or wind-down operations of an impacting driven beam | Chaos Solitons & Fractals | 9 261-269 | S.R. Bishop, D. Wagg and D. Xu |
10 | Applying chaos control in periodic windows | Chaos Solitons & Fractals | 9(8) 1297-1305 | S.R. Bishop, D. Xu, C.Y. Liaw and E.S. Chan |
11 | Hydroelastic perturbation method for multi-variable parameter platforms | Ocean Engineering | 10(3) 65-72 | D. Xu and Zhang Xichang |
12 | Large range analysis for nonlinear dynamic systems -- element mapping method | Journal of Applied Mathematics and Mechanics | 13(6) 577-586 | Liu Tie-Niu and D. Xu |
13 | Chaos theory in stock forecasting | Journal of Stock Exchange Singapore | 12 30-33 | D. Xu, C.T. Loy, K.Y. Lam and K.G. Lim |
14 | An Application of neural networks in stock markets | Journal of Stock Exchange Singapore | 10 1-6 | C.T. Loy, D. Xu and K.Y. Lam |
15 | Three dominant cycles in Singapore’s stock index | Journal of Stock Exchange Singapore | 9 25-27 | D. Xu, C.T. Loy, K.Y. Lam and K.G. Lim |
16 | A look at warrants | Journal of Stock Exchange Singapore | 4 17-18 | C.T. Loy, D. Xu and K.Y. Lam |
17 | Adaptive control of chaotic stick-slip mechanical systems | Control of Oscillations and Chaos | 1-3 225-228 | Galvanetto U, Bishop SR, Xu DL |
18 | Transient responses in a functionally graded cylindrical shell to a point load | Journal of Sound and Vibration | 251(5) 783-805 | Han X, Xu D, Liu GR |
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