Smart shoe devices generate power from walking
German researchers have built shoe-sized devices that harvest power from the act of walking, the BBC reported.
The technology could be used to power wearable electronic sensors without the need for batteries.
There are two separate devices: a "shock harvester" that generates power when the heel strikes the ground and a "swing harvester" that produces power when the foot is swinging.
They could also form the basis of a self-lacing shoe for the elderly.
Details of the advance are outlined in the journal Smart Materials and Structures.
"We have tried to power a wireless transmitter and to power a simple sensor," said Klevis Ylli from HSG-IMIT, a research centre in Villingen-Schwenningen, Germany.
"One application we are working on is indoor navigation which means we have sensors within the shoe that measure the acceleration of the foot, the angular velocity - whether you're turning the foot or not - and the magnetic field.
"From the data from these sensors, you could calculate how far you have travelled and in which direction. So imagine a rescue unit walking into a building they don't know. They could then track which way they went on their handheld device."
Both energy harvesting devices generate power by exploiting the motion between magnets and coils.
As the magnetic field of a moving magnet passes by a stationary coil, a voltage is induced and an electric current is generated.
The energy they generate is still relatively small - in the three to four milliWatt (mW) range at their peak.
That's not nearly enough to charge a smartphone, for example, which would typically require about 2,000 mW. But it is enough to power small sensors and transmitters, opening up a range of new applications.
The devices represent a trade-off between power generation, size and other limiting factors. And Mr Ylli says his team's approach offers certain key advantages.
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