Probabilistic analysis and ghost-stochastic resonance of a hybrid energy harvester under Gaussian White noise

被引:9
作者
Fezeu, G. J. [1 ]
Fokou, I. S. Mokem [1 ,2 ]
Buckjohn, C. Nono Dueyou [1 ]
Siewe, M. Siewe [1 ]
Tchawoua, C. [1 ]
机构
[1] Univ Yaounde I, Fac Sci, Dept Phys, Lab Mech Mat & Struct, POB 812, Yaounde, Cameroon
[2] African Ctr Excellence Informat & Commun Technol, Yaounde, Cameroon
关键词
Probability; Mean residence time; Ghost-stochastic resonance; BUCKLED BEAM; VIBRATION; GENERATOR; DESIGN;
D O I
10.1007/s11012-020-01204-3
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
In this present work, a hybrid energy scavenger using two mechanisms of transduction namely piezoelectric and electromagnetic and subjected to the Gaussian white noise is investigated. The stochastic averaging method is used here in other to construct the Fokker-Plank-Kolmogorov equation of the system whose the statistic response in the stationary state is the probability density. The mean square voltage and current are obtained for different value of white noise intensities as the output power generated by piezoelectric circuit and electromagnetic circuit. In addition, combining the Gaussian white noise and coherence excitation, the Ghost-Stochastic resonance is observed through the mean residence time and improve the amount of energy harvested by the scavenger. The agreement between the analytical method and those obtained numerically validates the effectiveness of analytical investigations. The results obtained in this manuscript reveal that, while the natural frequency is absent in the external coherent force, the amount of energy harvested by the energy scavenging device can be improved for certain value of noise intensity.
引用
收藏
页码:1679 / 1691
页数:13
相关论文
共 52 条
[11]   Coupling-mediated ghost resonance in mutually injected lasers -: art. no. 013103 [J].
Buldú, JM ;
González, CM ;
Trull, J ;
Torrent, MC ;
García-Ojalvo, J .
CHAOS, 2005, 15 (01)
[12]   Ghost resonance in a semiconductor laser with optical feedback [J].
Buldú, JM ;
Chialvo, DR ;
Mirasso, CR ;
Torrent, MC ;
García-Ojalvo, J .
EUROPHYSICS LETTERS, 2003, 64 (02) :178-184
[13]   Piezoelectric and electromagnetic hybrid energy harvester for powering wireless sensor nodes in smart grid [J].
Chen, Wang ;
Cao, Yanlong ;
Xie, Jin .
JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY, 2015, 29 (10) :4313-4318
[14]  
Chialvo DR, 2002, PHYS REV E, V65, DOI 10.1103/PhysRevE.65.050902
[15]   How we hear what is not there: A neural mechanism for the missing fundamental illusion [J].
Chialvo, DR .
CHAOS, 2003, 13 (04) :1226-1230
[16]   A 3D printed electromagnetic nonlinear vibration energy harvester [J].
Constantinou, P. ;
Roy, S. .
SMART MATERIALS AND STRUCTURES, 2016, 25 (09)
[17]   Nonlinear Energy Harvesting [J].
Cottone, F. ;
Vocca, H. ;
Gammaitoni, L. .
PHYSICAL REVIEW LETTERS, 2009, 102 (08)
[18]   On the Role of Nonlinearities in Vibratory Energy Harvesting: A Critical Review and Discussion [J].
Daqaq, Mohammed F. ;
Masana, Ravindra ;
Erturk, Alper ;
Quinn, D. Dane .
APPLIED MECHANICS REVIEWS, 2014, 66 (04)
[19]   HEART DISEASE ATTRIBUTED TO OCCUPATIONAL NOISE, VIBRATION AND OTHER CO-EXPOSURE: SELF-REPORTED POPULATION-BASED SURVEY AMONG BULGARIAN WORKERS [J].
Dzhambov, Angel M. ;
Dimitrova, Donka D. .
MEDYCYNA PRACY, 2016, 67 (04) :435-445
[20]  
Elvin N., 2013, ADV ENERGY HARVESTIN