The concept of harvesting electrical energy from ambient vibration sources has been a popular topic of research in recent years. Recently, the realisation that the majority of ambient vibration sources are often stochastic in nature has led to a large body of work which has focused on the response of energy harvesters to random excitations - most of which approximate environmental excitations as being Gaussian white noise. Of particular interest here are recent findings which demonstrate the advantages that Duffing-type nonlinearities can introduce into energy harvesters. The aim of this paper is to identify how well these results can be applied to that of a real energy harvesting scenario. More specifically, the response of an energy harvester to excitation via human motion is studied using digital simulations in conjunction with acceleration data obtained from a human participant. As well as assessing whether Duffing-type nonlinearities can have a beneficial impact on device performance this paper aims to investigate whether Gaussian white noise can indeed be used as a good approximation for this particular ambient vibration source. © Published under licence by IOP Publishing Ltd.
CITATION STYLE
Green, P. L., Papatheou, E., & Sims, N. D. (2012). Energy harvesting from human motion: An evaluation of current nonlinear energy harvesting solutions. In Journal of Physics: Conference Series (Vol. 382). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/382/1/012023
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