AbstractHuman power is defined as the use of human work for energy generation to power an electronic device. The active powering of electronic devices takes place when the user of the electronic product has to do a specific work in order to power the product that otherwise the user would not have done. As fossil fuels around the world depletes, alternate means of harvesting energy is required. Biomechanical energy harvesting–generating electricity from people during daily activities–is a promising alternative to batteries for powering increasingly sophisticated portable devices. Effectively harvesting energy from walking requires a small lightweight device that efficiently converts intermittent, bi-directional, low speed and high torque mec...
Piezoelectric materials are capable of converting energy from mechanical vibration to electrical ene...
dissertationInertial energy harvesting from human motion enables self-powered sensing capabilities f...
In the previous few years’ low-power electronic devices have been broadened rapidly. The devices are...
AbstractHuman power is defined as the use of human work for energy generation to power an electronic...
Abstract Background Biomechanical energy harvesting–generating electricity from people during daily ...
AbstractHarvesting energy from biomechanical motion of a human poses a promising replacement for bat...
Converting mechanical energy into electrical energy during human walking can power the portable elec...
The energy requirements of various sensors and portable devices are conventionally met with batterie...
Energy harvesting has been attracting attention as a technology that is capable of replacing or supp...
The biomechanical energy harvesting system (BM-EHS) uses human daily activities to create electricit...
Over the past few decades the use of portable and wearable electronics has grown steadily. These dev...
We report a novel concept of harvesting energy from low frequency and low force human gait movement ...
International audienceIn this article, the authors present the energy potential associated with an e...
This study presents a quantitative analysis of experimental data for extracting energy from human bo...
Portable electronic systems and wearable sensor networks are offering increasing opportunities in f...
Piezoelectric materials are capable of converting energy from mechanical vibration to electrical ene...
dissertationInertial energy harvesting from human motion enables self-powered sensing capabilities f...
In the previous few years’ low-power electronic devices have been broadened rapidly. The devices are...
AbstractHuman power is defined as the use of human work for energy generation to power an electronic...
Abstract Background Biomechanical energy harvesting–generating electricity from people during daily ...
AbstractHarvesting energy from biomechanical motion of a human poses a promising replacement for bat...
Converting mechanical energy into electrical energy during human walking can power the portable elec...
The energy requirements of various sensors and portable devices are conventionally met with batterie...
Energy harvesting has been attracting attention as a technology that is capable of replacing or supp...
The biomechanical energy harvesting system (BM-EHS) uses human daily activities to create electricit...
Over the past few decades the use of portable and wearable electronics has grown steadily. These dev...
We report a novel concept of harvesting energy from low frequency and low force human gait movement ...
International audienceIn this article, the authors present the energy potential associated with an e...
This study presents a quantitative analysis of experimental data for extracting energy from human bo...
Portable electronic systems and wearable sensor networks are offering increasing opportunities in f...
Piezoelectric materials are capable of converting energy from mechanical vibration to electrical ene...
dissertationInertial energy harvesting from human motion enables self-powered sensing capabilities f...
In the previous few years’ low-power electronic devices have been broadened rapidly. The devices are...