Piezo impact type MEMS rotary actuator and application to millimeter size AI controlled robot

Abstract: microrobotic systems are increasingly used in medicine and other fields requiring precision engineering. This paper proposes a piezo impact-type rotary actuator and applies it to a millimeter-size robot controlled by an artificial intelligence (AI) system. The rotary actuator and robot are fabricated by micro electro mechanical systems (MEMS) technology using a silicon wafer. The actuator is composed of multilayer piezoelectric elements. The rotational motion of the rotor is generated by the impact head attach… Show more

“…Therefore, robots that are perfectly mimicked the insects have not been realized. Previously, we reported on an insect-type MEMS microrobot that fits within 5-mm-cubed driven by a pulsed hardware neural networks (P-HNN) 4 . However, the P-HNN circuit, which was constructed from discreet components, was found to be too big to be mounted on the microrobot.…”

MEMS Microrobot Controlled by Mounted Neural Networks IC with Two Types Actuators

“…Therefore, robots that are perfectly mimicked the insects have not been realized. Previously, we reported on an insect-type MEMS microrobot that fits within 5-mm-cubed driven by a pulsed hardware neural networks (P-HNN) 4 . However, the P-HNN circuit, which was constructed from discreet components, was found to be too big to be mounted on the microrobot.…”

MEMS Microrobot Controlled by Mounted Neural Networks IC with Two Types Actuators

Four-leg independent mechanism for MEMS microrobot

IC design of pulse-type hardware neuron model for piezoelectric element impact-type MEMS microrobot