A Quadrotor With an Origami-Inspired Protective Mechanism

Jing Shu; Pakpong Chirarattananon

doi:10.1109/LRA.2019.2929978

A Quadrotor With an Origami-Inspired Protective Mechanism

Jing Shu
, Pakpong Chirarattananon^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

Abstract

Despite advances in localization and navigation, aerial robots inevitably remain susceptible to accidents and collisions. In this letter, we propose a passive foldable airframe as a protective mechanism for a small aerial robot. A foldable quadrotor is designed and fabricated using the origami-inspired manufacturing paradigm. Upon an accidental mid-flight collision, the deformable airframe is mechanically activated. The rigid frame reconfigures its structure to protect the central part of the robot that houses sensitive components from a crash to the ground. The proposed robot is fabricated, modeled, and characterized. The 51-g vehicle demonstrates the desired folding sequence in less than 0.15 s when colliding with a wall when flying.

Original language	English
Pages (from-to)	3820-3827
Journal	IEEE Robotics and Automation Letters
Volume	4
Issue number	4
Online published	22 Jul 2019
DOIs	https://doi.org/10.1109/LRA.2019.2929978
Publication status	Published - Oct 2019

Research Keywords

Aerial systems: mechanics and control
mechanism design
biologically-inspired robots
INSECT
ROBUST

RGC Funding Information

RGC-funded

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10.1109/LRA.2019.2929978

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ECS: Design, Fabrication, and Control of a Dragonfly-Inspired Flapping-Wing Robot
CHIRARATTANANON, P. (Principal Investigator / Project Coordinator)
1/12/15 → 27/11/19
Project: Research

Cite this

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abstract = "Despite advances in localization and navigation, aerial robots inevitably remain susceptible to accidents and collisions. In this letter, we propose a passive foldable airframe as a protective mechanism for a small aerial robot. A foldable quadrotor is designed and fabricated using the origami-inspired manufacturing paradigm. Upon an accidental mid-flight collision, the deformable airframe is mechanically activated. The rigid frame reconfigures its structure to protect the central part of the robot that houses sensitive components from a crash to the ground. The proposed robot is fabricated, modeled, and characterized. The 51-g vehicle demonstrates the desired folding sequence in less than 0.15 s when colliding with a wall when flying.",

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language = "English",

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N2 - Despite advances in localization and navigation, aerial robots inevitably remain susceptible to accidents and collisions. In this letter, we propose a passive foldable airframe as a protective mechanism for a small aerial robot. A foldable quadrotor is designed and fabricated using the origami-inspired manufacturing paradigm. Upon an accidental mid-flight collision, the deformable airframe is mechanically activated. The rigid frame reconfigures its structure to protect the central part of the robot that houses sensitive components from a crash to the ground. The proposed robot is fabricated, modeled, and characterized. The 51-g vehicle demonstrates the desired folding sequence in less than 0.15 s when colliding with a wall when flying.

AB - Despite advances in localization and navigation, aerial robots inevitably remain susceptible to accidents and collisions. In this letter, we propose a passive foldable airframe as a protective mechanism for a small aerial robot. A foldable quadrotor is designed and fabricated using the origami-inspired manufacturing paradigm. Upon an accidental mid-flight collision, the deformable airframe is mechanically activated. The rigid frame reconfigures its structure to protect the central part of the robot that houses sensitive components from a crash to the ground. The proposed robot is fabricated, modeled, and characterized. The 51-g vehicle demonstrates the desired folding sequence in less than 0.15 s when colliding with a wall when flying.

KW - Aerial systems: mechanics and control

KW - mechanism design

KW - biologically-inspired robots

KW - INSECT

KW - ROBUST

U2 - 10.1109/LRA.2019.2929978

DO - 10.1109/LRA.2019.2929978

M3 - RGC 21 - Publication in refereed journal

SN - 2377-3766

VL - 4

SP - 3820

EP - 3827

JO - IEEE Robotics and Automation Letters

JF - IEEE Robotics and Automation Letters

IS - 4

ER -

A Quadrotor With an Origami-Inspired Protective Mechanism

Abstract

Research Keywords

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ECS: Design, Fabrication, and Control of a Dragonfly-Inspired Flapping-Wing Robot

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