Add to ORKGInternational audienceIn this article, the authors present the energy potential associated with an electromechanical resonant generator that uses natural movements of the human body during walking motion, as a means of increasing the autonomy of portable electronic systems. The article begins by characterizing the human walk in terms of frequency and hip displacement amplitude. A combined mechanical and electrical study is then conducted in order to determine an order of magnitude for recoverable power
Abstract Background Biomechanical energy harvesting–generating electricity from people during daily ...
A comprehensive review of design and experimentation is presented in this research paper on sustaina...
Abstract: Modelling and analysis of an electromagnetic generator designed for harvesting power produ...
International audienceIn this article, the authors present the energy potential associated with an e...
International audienceIn this article, the authors present the energy potential associated with an e...
International audienceIn this article, the authors present the energy potential associated with an e...
Abstract- In this paper, the authors present the energy production potential of a mechanically-reson...
International audienceIn this paper, the authors present the energy production potential of a mechan...
International audienceIn this paper, the authors present the energy production potential of a mechan...
International audienceIn this paper, the authors present the energy production potential of a mechan...
This paper presents an electromagnetic based generator which is suitable for supplying generating po...
AbstractHuman power is defined as the use of human work for energy generation to power an electronic...
This thesis deals with problematics of using the Energy Harvesting principles for generating power f...
Energy generation: Harnessing people power A wearable generator developed by researchers in China ca...
Converting mechanical energy into electrical energy during human walking can power the portable elec...
Abstract Background Biomechanical energy harvesting–generating electricity from people during daily ...
A comprehensive review of design and experimentation is presented in this research paper on sustaina...
Abstract: Modelling and analysis of an electromagnetic generator designed for harvesting power produ...
International audienceIn this article, the authors present the energy potential associated with an e...
International audienceIn this article, the authors present the energy potential associated with an e...
International audienceIn this article, the authors present the energy potential associated with an e...
Abstract- In this paper, the authors present the energy production potential of a mechanically-reson...
International audienceIn this paper, the authors present the energy production potential of a mechan...
International audienceIn this paper, the authors present the energy production potential of a mechan...
International audienceIn this paper, the authors present the energy production potential of a mechan...
This paper presents an electromagnetic based generator which is suitable for supplying generating po...
AbstractHuman power is defined as the use of human work for energy generation to power an electronic...
This thesis deals with problematics of using the Energy Harvesting principles for generating power f...
Energy generation: Harnessing people power A wearable generator developed by researchers in China ca...
Converting mechanical energy into electrical energy during human walking can power the portable elec...
Abstract Background Biomechanical energy harvesting–generating electricity from people during daily ...
A comprehensive review of design and experimentation is presented in this research paper on sustaina...
Abstract: Modelling and analysis of an electromagnetic generator designed for harvesting power produ...