1 Daqaq, M. F., "Transduction of a bistable inductive generator driven by white and exponentially correlated Gaussian noise" 330 (330): 2554-2564, 2011
2 Green, P. L., "The benefits of Duffi ng-type nonlinearities and electrical optimisation of a mono-stable energy harvester under white Gaussian excitations" 331 (331): 4504-4517, 2012
3 Ling, C. S., "Technological challenges of developing wireless health and usage monitoring systems" 8695 : 86950K-86951K, 2013
4 Cao, Lianmin, "Structure design and test of MEMS thermocouple infrared detector" 24 (24): 2463-2471, 2018
5 Zhao, Z. H., "Solving of the dynamic problem of Piezo-compound structure based on FEPG" 05 : 66-70, 2008
6 Sunithamani, S., "Simulation study on performance of MEMS piezoelectric energy harvester with optimized substrate to piezoelectric thickness ratio" 21 (21): 733-738, 2015
7 Sebald, G., "Simulation of a Duffing oscillator for broadband piezoelectric energy harvesting" 20 (20): 075022-, 2011
8 Daqaq, M. F., "Response of uni-modal duffing-type harvesters to random forced excitations" 329 (329): 3621-3631, 2010
9 Karami, M. A., "Powering pacemakers from heartbeat vibrations using linear and nonlinear energy harvesters" 100 : 042901-, 2012
10 Muthalif, A. G. A., "Optimal piezoelectric beam shape for single and broadband vibration energy harvesting : Modeling, simulation and experimental results" 54 : 417-426, 2015
1 Daqaq, M. F., "Transduction of a bistable inductive generator driven by white and exponentially correlated Gaussian noise" 330 (330): 2554-2564, 2011
2 Green, P. L., "The benefits of Duffi ng-type nonlinearities and electrical optimisation of a mono-stable energy harvester under white Gaussian excitations" 331 (331): 4504-4517, 2012
3 Ling, C. S., "Technological challenges of developing wireless health and usage monitoring systems" 8695 : 86950K-86951K, 2013
4 Cao, Lianmin, "Structure design and test of MEMS thermocouple infrared detector" 24 (24): 2463-2471, 2018
5 Zhao, Z. H., "Solving of the dynamic problem of Piezo-compound structure based on FEPG" 05 : 66-70, 2008
6 Sunithamani, S., "Simulation study on performance of MEMS piezoelectric energy harvester with optimized substrate to piezoelectric thickness ratio" 21 (21): 733-738, 2015
7 Sebald, G., "Simulation of a Duffing oscillator for broadband piezoelectric energy harvesting" 20 (20): 075022-, 2011
8 Daqaq, M. F., "Response of uni-modal duffing-type harvesters to random forced excitations" 329 (329): 3621-3631, 2010
9 Karami, M. A., "Powering pacemakers from heartbeat vibrations using linear and nonlinear energy harvesters" 100 : 042901-, 2012
10 Muthalif, A. G. A., "Optimal piezoelectric beam shape for single and broadband vibration energy harvesting : Modeling, simulation and experimental results" 54 : 417-426, 2015
11 Daqaq, M. F., "On intentional introduction of stiffness nonlinearities for energy harvesting under white Gaussian excitations" 69 (69): 1063-1079, 2012
12 Ren, Y. S., "Nonlinear deformation, thermal buckling and vibration of shape memory alloy fiber composite beams" 01 : 99-110, 2019
13 Tabatabaei, S. M. K., "Multi-objective shape design optimization of piezoelectric energy harvester using artificial immune system" 22 (22): 2435-2446, 2016
14 Hosseini, R., "Improvements in energy harvesting capabilities by using different shapes of piezoelectric bimorphs" 25 (25): 125008-, 2015
15 Tiwari, R., "Energy balance for peak detection method in piezoelectric energy harvester" 25 : 1024-1035, 2014
16 Chandrasekharan, N., "Effects of geometric and material properties on electrical power harvested from a bimorph piezoelectric cantilever beam" 9 (9): 391-409, 2013
17 Shafer, M. W., "Designing maximum power output into piezoelectric energy harvesters" 21 (21): 085008-, 2012
18 Lian-min Cao, "Design and Test of the MEMS Coupled Piezoelectric- Electromagnetic Energy Harvester" 한국정밀공학회 20 (20): 673-686, 2019
19 Goldschmidtboeing, F., "Characterization of different beam shapes for piezoelectric energy harvesting" 18 (18): 104013-, 2008
20 Marin, A., "Broadband electromagnetic vibration energy harvesting system for powering wireless sensor nodes" 22 : 075008-, 2013
21 Dietl, J. M., "Beam shape optimization for power harvesting" 21 (21): 633-646, 2010
22 Nicholas, R., "A structured approach to optimization of energy harvesting wireless sensor networks" 420-425, 2013
23 Yang, X., "A new hybrid piezoelectric-electromagnetic vibration-powered generator and its model and experiment research applied superconductivity" 24 : 1-4, 2014