Energy efficient perching and takeoff of a miniature rotorcraft

Hsiao, Yi‐Hsuan; Bai, Songnan; Zhou, Yongsen; Jia, Huaiyuan; Ding, Runze; Chen, Yu Feng; Wang, Zuankai; Chirarattananon, Pakpong

doi:10.1038/s44172-023-00087-y

Cited by 6 publications

References 60 publications

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An Aerial Robot Achieving Bimodal Flight and Independent Attitude Control through Passive Morphing

Xu,

Chirarattananon

2024

Advanced Intelligent Systems

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Enhancing the adaptability and versatility of unmanned micro aerial vehicles (MAVs) is crucial for expanding their application range. In this article, a bimodal reconfigurable robot capable of operating in both regular quadcopter flight mode and a unique revolving flight mode is presented, which allows independent control of the vehicle's position and roll‐pitch attitude. This design incorporates passive revolute joints that enable seamless mid‐air transitions between the two modes, facilitated by centrifugal forces, without the need for additional actuators. In the regular mode, the robot operates with four vertical propellers, similar to conventional designs. In the revolving mode, the configuration shifts to two horizontal and two vertical propellers, achieving five degrees of freedom control with four actuators. This underactuated flight capability is made possible by exploiting the robot's fast revolving motion and the resulting cycle‐averaged forces and torques. Experimental validations confirm the feasibility and enhance the maneuverability of this design. The revolving flight mode provides significant advantages in applications such as mapping and confined space navigation.

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An Aerial Robot Achieving Bimodal Flight and Independent Attitude Control through Passive Morphing

Xu,

Chirarattananon

2024

Advanced Intelligent Systems

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Aerodynamic interactions of non-planar rotor pairs and model derivation in ground approach

Garofano-Soldado,

Heredia,

Ollero

2023

Aerospace Science and Technology

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Robotic Drone Arm for civil structures inspection: Challenges and Future Directions

Suthar,

Mahadeva,

Dixit

et al. 2023

E3S Web Conf.

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Over the past two decades, the field of civil engineering has witnessed a remarkable transformation with the integration of robotic technology in civil and infrastructures inspection. Robotic drone arms have emerged as a pivotal tool, offering unparalleled access to hard-to-reach areas and enabling comprehensive assessments of civil structures. This article presents a comprehensive review of the advancements, challenges, and applications of robotic drone arms for civil structure inspection over the last two decades. This article discusses the key developments in types of robotic drone arms, real-world applications, success stories, current challenges and future directions for civil and infrastructure inspection.

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Energy efficient perching and takeoff of a miniature rotorcraft

Cited by 6 publications

References 60 publications

An Aerial Robot Achieving Bimodal Flight and Independent Attitude Control through Passive Morphing

An Aerial Robot Achieving Bimodal Flight and Independent Attitude Control through Passive Morphing

Aerodynamic interactions of non-planar rotor pairs and model derivation in ground approach

Robotic Drone Arm for civil structures inspection: Challenges and Future Directions

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