The Micro Flying Robot (µFR) is the world’s smallest and lightest
robot helicopter prototype, which was developed by
Epson and demonstrated at the
International Robot Exhibition in Tokyo in November 2003.
The purpose of its development was to demonstrate its micro-
mechatronics technology and to explore the possible use of
micro robots and the development of component technology applications.
Features and capabilities
The µFR is levitated by
contra-rotating propellers powered by four 7x2x1-mm
ultrasonic motors (originally developed for wristwatches) and is balanced in mid-air by means of a stabilizing mechanism that uses a
linear actuator. Though the µFR is radio-controlled, it relies on power from an external battery via a power cable and thus its flying range is limited. The µFR includes two microprocessors, a
bluetooth module, a gyro-sensor, an
accelerometer and an image sensor.
Development of µFR-II
The µFR-II is the enhanced version of the µFR. It was developed in 2004 for full wireless operation paired with independent flight capability. The main challenge was the need to combine lighter weight with greater dynamic lift. Epson made the robot lighter by developing a new gyro-sensor
that is one-fifth the weight of its predecessor. Dynamic lift was boosted 30% by the introduction of more powerful ultra-thin ultrasonic motors and newly designed, optimally shaped main rotors.
The µFR-II includes two 32-bit
RISC
In computer engineering, a reduced instruction set computer (RISC) is a computer designed to simplify the individual instructions given to the computer to accomplish tasks. Compared to the instructions given to a complex instruction set comput ...
microcontrollers, an on-board
lithium polymer
A lithium polymer battery, or more correctly lithium-ion polymer battery (abbreviated as LiPo, LIP, Li-poly, lithium-poly and others), is a rechargeable battery of lithium-ion technology using a polymer electrolyte instead of a liquid electrolyt ...
battery, as well as an image sensor that can capture and transmit images via Bluetooth wireless connection. At the moment it has a flight time of just 3 minutes.
Specifications
Possible applications
*Security and surveillance
*Disaster rescue
*Space exploration
References
External links
µFREpson News Release in November 2003 (archived)
Epson News Release in August 2004 (archived)
Micro Flying Robotics in Space MissionsBBC News article on the µFR-II
{{Seiko
Miniature helicopters
Unmanned aerial vehicles of Japan
Robotics at Epson
2003 robots
Aerobots