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Constrained parameter-splitting multiple-scales method for the primary/sub-harmonic resonance of a cantilever-type vibration energy harvester
Journal article
Du, Hai-En, Li, Lan-Juan, Er, Guo-Kang, Iu, vai Pan. Constrained parameter-splitting multiple-scales method for the primary/sub-harmonic resonance of a cantilever-type vibration energy harvester[J]. International Journal of Structural Stability and Dynamics, 2023, 23(20), 37.
Authors:
Du, Hai-En
;
Li, Lan-Juan
;
Er, Guo-Kang
;
Iu, vai Pan
Favorite
|
TC[WOS]:
3
TC[Scopus]:
3
|
Submit date:2023/06/29
Perturbation Method
Geometrically Nonlinear Cantilever
Large Deflection
Floquet Theory
Forced Vibration
A Hybrid Method for the Primary Resonance Response of Harmonically Forced Strongly Nonlinear Oscillators
Journal article
Du, Hai-En, Li, Lijuan, Er, Guo-Kang, Iu, Vai Pan. A Hybrid Method for the Primary Resonance Response of Harmonically Forced Strongly Nonlinear Oscillators[J]. International Journal of Structural Stability and Dynamics, 2022, 23(06), 2350067.
Authors:
Du, Hai-En
;
Li, Lijuan
;
Er, Guo-Kang
;
Iu, Vai Pan
Favorite
|
TC[WOS]:
2
TC[Scopus]:
2
IF:
3.0
/
2.9
|
Submit date:2023/03/09
Perturbation Method
Duffing Oscillator
Nonlinear Cantilever
Floquet Theory
Strong Nonlinearity
Forced Vibration
Analytical investigation into error propagation of power spectral density transmissibility (PSDT) based on coherence function
Journal article
Sun, Qian, Yan, Wang Ji, Ren, Wei Xin. Analytical investigation into error propagation of power spectral density transmissibility (PSDT) based on coherence function[J]. Journal of Sound and Vibration, 2021, 514, 116429.
Authors:
Sun, Qian
;
Yan, Wang Ji
;
Ren, Wei Xin
Favorite
|
TC[WOS]:
6
TC[Scopus]:
8
IF:
4.3
/
4.3
|
Submit date:2021/12/08
Coherence Function
Error Propagation
Operational Modal Analysis
Perturbation Method
Power Spectral Density Transmissibility
Spectral Error
Consensus of multi-agent systems with impulsive perturbations and time-varying delays by dynamic delay interval method
Journal article
Shan, Qihe, Chen, Zengzhi, Li, Tieshan, Philip Chen, C. L.. Consensus of multi-agent systems with impulsive perturbations and time-varying delays by dynamic delay interval method[J]. Communications in Nonlinear Science and Numerical Simulation, 2019, 78, 104890.
Authors:
Shan, Qihe
;
Chen, Zengzhi
;
Li, Tieshan
;
Philip Chen, C. L.
Favorite
|
TC[WOS]:
13
TC[Scopus]:
14
IF:
3.4
/
3.3
|
Submit date:2022/05/17
Consensus
Delayed Multi-agent System
Dynamic Delay Interval Method
Impulsive Perturbation
A Novel Method to Improve the Multiple-Scales Solution of the Forced Nonlinear Oscillators
Journal article
Du,Hai En, Er,Guo Kang, Iu,Vai Pan. A Novel Method to Improve the Multiple-Scales Solution of the Forced Nonlinear Oscillators[J]. International Journal of Computational Methods, 2019, 16(4).
Authors:
Du,Hai En
;
Er,Guo Kang
;
Iu,Vai Pan
Favorite
|
TC[WOS]:
6
TC[Scopus]:
5
IF:
1.4
/
1.3
|
Submit date:2021/03/09
Forced Vibration
Improved Solution
Multiple-scales Method
Perturbation Method
Strong Nonlinearity
A novel method for the forced vibrations of nonlinear oscillators
Conference paper
Du, H. E., Er, G. K., Iu, V. P.. A novel method for the forced vibrations of nonlinear oscillators[C], 2018.
Authors:
Du, H. E.
;
Er, G. K.
;
Iu, V. P.
Favorite
|
|
Submit date:2022/07/14
Perturbation Method
Multiple-scales Method
Strong Nonlinearity
Improved Method
A Novel Method to Improve the Multiple-Scales Solution of the Forced Nonlinear Oscillators
Journal article
Du, H. E., Er, G. K., Iu, V. P.. A Novel Method to Improve the Multiple-Scales Solution of the Forced Nonlinear Oscillators[J]. International Journal of Computational Methods, 2018, 1843010-1-1843010-17.
Authors:
Du, H. E.
;
Er, G. K.
;
Iu, V. P.
Favorite
|
TC[WOS]:
6
TC[Scopus]:
5
|
Submit date:2022/08/26
Perturbation Method
Multiple-scales Method
Strong Nonlinearity
Improvedsolution
Forced Vibration.
A Novel Method to Improve the Multiple-scales Solution of the Forced Strongly Nonlinear Oscillators
Conference paper
Du, H. E., Er, G. K., Iu, V. P.. A Novel Method to Improve the Multiple-scales Solution of the Forced Strongly Nonlinear Oscillators[C], 2017.
Authors:
Du, H. E.
;
Er, G. K.
;
Iu, V. P.
Favorite
|
|
Submit date:2022/08/26
Perturbation method
Strong nonlinearity
Nonlinear restoring force
Nonlinear inertial force
Forced Vibration
Improved Analytical Modeling of Membrane Large Deflection with Lateral Force for the Underwater CMUT Based on von Kármán Equations
Journal article
Wang, Jiujiang, Pun, Sio Hang, Mak, Peng Un, Cheng, Ching-Hsiang, Yu, Yuanyu, Mak, Pui-In, Vai, Mang I.. Improved Analytical Modeling of Membrane Large Deflection with Lateral Force for the Underwater CMUT Based on von Kármán Equations[J]. IEEE Sensors Journal, 2016, 16(17), 6633-6640.
Authors:
Wang, Jiujiang
;
Pun, Sio Hang
;
Mak, Peng Un
;
Cheng, Ching-Hsiang
;
Yu, Yuanyu
; et al.
Favorite
|
TC[WOS]:
8
TC[Scopus]:
11
IF:
4.3
/
4.2
|
Submit date:2019/02/12
Cmut
Lateral Force
Perturbation Method
Von Kármán Equations
Stochastic plane stress analysis with elementary stiffness matrix decomposition method
Conference paper
Er G.K., Wang M.C., Iu V.P., Kou K.P.. Stochastic plane stress analysis with elementary stiffness matrix decomposition method[C]:AMER INST PHYSICS, 2 HUNTINGTON QUADRANGLE, STE 1NO1, MELVILLE, NY 11747-4501 USA, 2010, 735-740.
Authors:
Er G.K.
;
Wang M.C.
;
Iu V.P.
;
Kou K.P.
Favorite
|
TC[WOS]:
0
TC[Scopus]:
0
|
Submit date:2019/02/12
Computational Efficiency
Esmd Method
Perturbation Method
Stochastic Finite Element
