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Literature

  1. Umeda M, Nakamura K and Ueha S, 1996. Analysis of the transformation of mechanical impact energy to electric energy using piezoelectric vibrator. Japanese Journal of Applied Physics, 1(5b), pp. 3267-3273.
  2. Gu L and Livermore C, 2011. Impact-driven, frequency up-converting coupled vibration energy harvesting device for low frequency operation. Smart Materials and Structures, 20, pp. 1-10.
  3. Chen N, Jung HJ, Jabbar H, Sung TH and Wei T, 2017. A piezoelectric impact-induced vibration cantilever energy harvester from speed bump with a low-power power management circuit. Sensors and Actuators A: Physical, 254, pp. 134-144.
  4. Zhu D, Tudor MJ and Beeby SP, 2010. Strategies for increasing the operating frequency range of vibration energy harvesters: a review. Measurement Science and Technology, 21, pp. 1-29.
  5. Tang L, Yang Y and Soh CK, 2010. Toward broadband vibration-based energy harvesting. Journal of Intelligent Materials Systems and Structures, 21, pp. 1867-1897.
  6. Twiefel J and Westermann H, 2013. Survey on broadband techniques for vibration energy harvesting. Journal of Intelligent Materials Systems and Structures, 24(11), pp. 1291-1302.
  7. Guyomar D and Lallart M, 2011. Recent progress in piezoelectric conversion and energy harvesting using nonlinear electronic interfaces and issues in small scale implementation. Micromachines, 2, pp. 274-294.
  8. Harne RL and Wang KW, 2013. A review on the recent research on vibration energy harvesting via bistable systems. Smart Materials and Structures, 22, pp. 1-12.
  9. Sneller AJ, Cette P and Mann BP, 2011. Experimental investigation of a post-buckled piezoelectric beam with an attached central mass used to harvest energy. Journal of Systems and Control Engineering, 225, pp. 497-509.
  10. Bibo A, Abdelkefi A and Daqaq MF, 2015. Modeling and characterization of a piezoelectric energy harvester under combined aerodynamic and base excitation. Journal of Vibration and Acoustics, 137, pp. 1-12.
  11. Renaud M, Fiorini P, Van Schaijk R and Van Hoof C, 2009. An impact based piezoelectric harvester adapted to low frequency environmental vibrations. Transducers, pp. 2094-2097.
  12. Ottman GK, Hofmann HF, Bhatt AC and Lesieutre GA, 2002. Adaptive piezoelectric energy harvesting circuit for wireless remote power supply. IEEE Transactions on Power Electronics, 17(5), pp. 669-676.
  13. Ottman GK, Hofmann HF and Lesieutre GA, 2003. Optimized piezoelectric energy harvesting circuitusing step-down converter in discontinuous conduction mode. IEEE Transactions on Power Electronics, 18(2), pp. 696-703.
  14. Sodano HA, Inman DJ and Park G, 2005. Generation and storage of electricity from power harvesting devices. Journal of Intelligent Materials Systems and Structures, 16, pp. 67-75.
  15. Mitcheson PD, Yeatman EM, Rao GK, Holmes AS and Green TC, 2008. Energy harvesting from human and machine motion for wireless electronic devices. Proceeding of the IEEE, 96(9), pp. 1457-1486.
  16. Cook-Chennault KA, Thambi N and Sastry AM, 2008. Powering MEMS portable devices – a review of non-regenerative and regenerative power supply systems with special emphasis on piezoelectric energy harvesting systems. Smart Materials and Structures, 17, pp. 1-33.
  17. Beeby SP, Tudor MJ and White NM, 2006. Energy harvesting vibration sources for Microsystems applications. Measurement Science and Technology, 17, pp. 175-195.
  18. Paradiso JA and Starner T, 2005. Energy scavenging for mobile and wireless electronics. IEEE Pervasive Computing, 4(1), pp. 18-27.
  19. Kymissis J, Kendall C, Paradiso J and Gershenfeld N, 1998. Parasitic power harvesting in shoes. Second International Symposium of Wearable Computers, pp. 1-8.
  20. Kim HS, Kim JH and Kim J, 2011. A review on piezoelectric energy harvesting based on vibration. International Journal of Precision Engineering and Manufacturing, 12(6), pp. 1129-1141.
  21. Lefeuvre E, Badel A, Richard C, Petit L and Guyomar D, 2006. A comparison between several vibration-powered piezoelectric generators for standalone systems. Sensora and Actuators A, 126(2), pp. 405-416.
  22. Leland ES and Wright PK, 2006. Resonance tuning of piezoelectric vibration energy scavenging generators using compressive axial preload. Smart Materials and Structures, 15, pp. 1413-1420.
  23. Erturk A and Inman DJ, 2011. Piezoelectric Energy Harvesting. John Wiley and Sons Ltd, UK.
  24. Erturk A, Renno JM and Inman DJ, 2009. Modeling of piezoelectric energy harvesting from an L-shaped beam-mass structure with an application to UAVs. Journal of Intelligent Material Systems and Structures, 20, pp. 529-544.
  25. Wickenheiser AM, Reissman T, Wu WJ and Garcia E, 2009. Modeling the effects of electromechanical coupling on energy storage through piezoelectric energy harvesting. IEEE/ASME Transactions of Mechatronics, 15(3), pp. 400-411.

 

 

 

 

 

The project

The project is co-financed by European Union and Greek national funds through the Operational Program Competitiveness, Entrepreneurship and Innovation, under the call "RESEARCH – CREATE - INNOVATE" (project code: Τ1EDK-01533).

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