Videos

Flapping Flying Robots Open New Needs in the Semiconductor Industry


 

By Takanobu Watanabe, "WiFly2" envisions a future where swarms of flying robots take to the skies with multipoint environment sensing. Equipped with two motors and four wings, "WiFly2" also uses machine learning in altitude adjustment.

SHARE

Meet the InnoUvator

Autonomous Flight Control of a Vertical Take-off and Landing Flapping Flying Robot

2018 Disruptive Challenger, Takanobu Watanabe

The ultimate goal is to have a large number of ultra-small sensor nodes with flying capabilities similar to dragonflies and perform global-scale multipoint environment scanning. The appearance of fully-fledged artificial muscle seems to be a long way off, so we first must use currently available technology: ultra-small motors. The aim is to make several tens of centimeter-sized flapping airplanes driven by gear and crank mechanisms (comparable to flying organisms). The milestone is to achieve motor function and develop autonomous flight technology. Finally, a vertical take-off and landing fluttering machine that can change the aerial altitude from hovering flight to level flight has been created. Therefore, in the INNO-vation program, we will target the autonomous flight of the flapper using machine learning.
Profile Page

Videos

See Our InnoUvators in Action

See More

View AMP site

View AMP site

Contact us!

Contact Us Form