Shaowu Yang scite author profile

Abstract-In this paper, we present an onboard monocular vision system for autonomous takeoff, hovering and landing of a Micro Aerial Vehicle (MAV). Since pose information with metric scale is critical for autonomous flight of a MAV, we present a novel solution to six degrees of freedom (DOF) pose estimation. It is based on a single image of a typical landing pad which consists of the letter "H" surrounded by a circle. A vision algorithm for robust and real-time landing pad recognition is implemented. Then the 5 DOF pose is estimated from the elliptic projection of the circle by using projective geometry. The remaining geometric ambiguity is resolved by incorporating the gravity vector estimated by the inertial measurement unit (IMU). The last degree of freedom pose, yaw angle of the MAV, is estimated from the ellipse fitted from the letter "H". The efficiency of the presented vision system is demonstrated comprehensively by comparing it to ground truth data provided by a tracking system and by using its pose estimates as control inputs to autonomous flights of a quadrotor.

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Unique three-dimensional Mo2C@MoS2 heterojunction nanostructure with S vacancies as outstanding all-pH range electrocatalyst for hydrogen evolution

Yang¹,

Wang²,

Zhang³

et al. 2019

Journal of Catalysis

123

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Autonomous Landing of MAVs on an Arbitrarily Textured Landing Site Using Onboard Monocular Vision

Yang

Scherer

Schauwecker

et al. 2013

J Intell Robot Syst

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Abstract-This paper presents a novel solution for micro aerial vehicles (MAVs) to autonomously search for and land on an arbitrary landing site using realtime monocular vision. The autonomous MAV is provided with only one single reference image of the landing site with an unknown size before initiating this task. We extend a well-known monocular visual SLAM algorithm that enables autonomous navigation of the MAV in unknown environments, in order to search for such landing sites. Furthermore, a multi-scale ORB feature based method is implemented and integrated into the SLAM framework for landing site detection. We use a RANSAC-based method to locate the landing site within the map of the SLAM system, taking advantage of those map points associated with the detected landing site. We demonstrate the efficiency of the presented vision system in autonomous flights, both indoor and in challenging outdoor environment.

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Multi-camera visual SLAM for autonomous navigation of micro aerial vehicles

Yang

Scherer

et al. 2017

Robotics and Autonomous Systems

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A robust omnidirectional vision sensor for soccer robots

Yang

Zhang

et al. 2011

Mechatronics

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Shaowu Yang

An Onboard Monocular Vision System for Autonomous Takeoff, Hovering and Landing of a Micro Aerial Vehicle

Unique three-dimensional Mo2C@MoS2 heterojunction nanostructure with S vacancies as outstanding all-pH range electrocatalyst for hydrogen evolution

Autonomous Landing of MAVs on an Arbitrarily Textured Landing Site Using Onboard Monocular Vision

Multi-camera visual SLAM for autonomous navigation of micro aerial vehicles

A robust omnidirectional vision sensor for soccer robots

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