首页 /研究 /Aerobat, A Bioinspired Drone to Test High-DOF Actuation and Embodied Aerial Locomotion
LOCOMOTION

Aerobat, A Bioinspired Drone to Test High-DOF Actuation and Embodied Aerial Locomotion

Alireza Ramezani, Eric Sihite

发表年份
2022
引用次数
2
访问权限
开放获取

摘要

This work presents an actuation framework for a bioinspired flapping drone called Aerobat. This drone, capable of producing dynamically versatile wing conformations, possesses 14 body joints and is tail-less. Therefore, in our robot, unlike mainstream flapping wing designs that are open-loop stable and have no pronounced morphing characteristics, the actuation, and closed-loop feedback design can pose significant challenges. We propose a framework based on integrating mechanical intelligence and control. In this design framework, small adjustments led by several tiny low-power actuators called primers can yield significant flight control roles owing to the robot's computational structures. Since they are incredibly lightweight, the system can host the primers in large numbers. In this work, we aim to show the feasibility of joint's motion regulation in Aerobat's untethered flights.

关键词

DroneMorphingActuatorRobotWingElevatorComputer scienceFlappingWork (physics)Engineering

相关论文

查看 LOCOMOTION 分类全部论文