Connect with us

Hi, what are you looking for?

Science & Technology

Japanese Researchers Unveil Tiny, Floating, “Firefly” Light Called Luciola

Japanese Researchers Unveil Tiny, Floating, "Firefly" Light Called Luciola 1

For two years, Japanese researchers have been working on a remarkable, floating light. Luciola is about the size of a firefly, glows red, and can levitate silently using ultrasonic waves.

Named “Luciola” after a genus of fireflies, a remarkable new light is about the size of a lighting bug and floats over waves of ultrasound. Weighing in at a minuscule 16.2 mg, each light glows red just brightly enough to read by. The ultrasonic waves that Luciola emits through 285 microspeakers are at a frequency inaudible to the human ear, allowing the light to levitate in total silence.

Japanese researchers of the Kawahara Universal Information Network Project have been working on Luciola for two years, circuit design specialist Makoto Takamiya said in an interview with Reuters. This remarkable invention is beautiful to behold but also magnificent in its capabilities. While initially, the bot may seem primarily whimsical, Luciola has the potential to be applied to everything from projection mapping to internet-of-things technologies.

“Ultimately, my hope is that such tiny objects will have smartphone capabilities and be built to float about helping us in our everyday lives in smarter ways,” Takamiya told Reuters.

Further modifications to Luciola could give it even more capabilities, although they will take time. The researchers aim to have the tiny bot ready to bring to market in the next five to 10 years.The research team believes that it will be possible to equip Luciola with temperature and movement sensors. This could allow the lights to deliver messages (traveling by ultrasonic wave, of course), work together to make moving displays, and even detect the presence of humans (something that could be applied within moving displays).

Hopefully, Takamiya is right, and Luciola will float into our lives, improving existing devices while expanding the horizon of what’s technologically possible — one ultrasonic wave at a time.

Source link

Comments

You May Also Like

Advertisement