AbstractThis paper describes an improved micro-power electric generator where energy harvested from human movements is used as an everlasting mechanical energy source to suffice smart hip implant electronics power needs. Its architecture is designed so that the mechanical energy promotes the movement of a combination of magnets and a spring embedded inside a Teflon tube, used to reduce friction. The changing magnetic field induces current in two coils so that the output of the generator is the sum of their signals. The end result is like a double generator in one casing. Produced electrical energy is stored in an energy reservoir handed over to a power management module. Experimental results shows that energy harvested from human walking ca...
AbstractThis paper describes a multi-purpose energy management system that can harvest energy from a...
Energy harvesting is a promising approach to power novel instrumented implants that have passive sen...
The biomechanical energy harvesting system (BM-EHS) uses human daily activities to create electricit...
AbstractThis paper describes an improved micro-power electric generator where energy harvested from ...
Failed hip replacements have resulted in increased demand for revision hip surgeries and rising cost...
The energy generation inside the human body represents a crucial aspect for powering implantable mea...
This paper describes an electromechanical generator, implantable in a human Total Knee Prosthesis (T...
This paper describes a miniaturized electromechanical generator, integrable in a human total knee pr...
International audienceIn this article, the authors present the energy potential associated with an e...
Energy generation: Harnessing people power A wearable generator developed by researchers in China ca...
Kinetic energy harvesting has been demonstrated as a useful technique for powering portable electron...
Converting energy from human upper limb motions into electrical energy is a challenge, as low freque...
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...
Monitoring the internal loads acting in a total knee prosthesis (TKP) is fundamental aspect to impro...
AbstractThis paper describes a multi-purpose energy management system that can harvest energy from a...
Energy harvesting is a promising approach to power novel instrumented implants that have passive sen...
The biomechanical energy harvesting system (BM-EHS) uses human daily activities to create electricit...
AbstractThis paper describes an improved micro-power electric generator where energy harvested from ...
Failed hip replacements have resulted in increased demand for revision hip surgeries and rising cost...
The energy generation inside the human body represents a crucial aspect for powering implantable mea...
This paper describes an electromechanical generator, implantable in a human Total Knee Prosthesis (T...
This paper describes a miniaturized electromechanical generator, integrable in a human total knee pr...
International audienceIn this article, the authors present the energy potential associated with an e...
Energy generation: Harnessing people power A wearable generator developed by researchers in China ca...
Kinetic energy harvesting has been demonstrated as a useful technique for powering portable electron...
Converting energy from human upper limb motions into electrical energy is a challenge, as low freque...
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...
Monitoring the internal loads acting in a total knee prosthesis (TKP) is fundamental aspect to impro...
AbstractThis paper describes a multi-purpose energy management system that can harvest energy from a...
Energy harvesting is a promising approach to power novel instrumented implants that have passive sen...
The biomechanical energy harvesting system (BM-EHS) uses human daily activities to create electricit...