X4-MaG: A Low-Cost Open-Source Micro-Quadrotor and its Linux-Based Controller

Manecy, Augustin; Marchand, Nicolas; Ruffier, Franck; Viollet, Stéphane

doi:10.1260/1756-8293.7.2.89

Cited by 24 publications

(31 citation statements)

References 19 publications

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“…The experiments have been conducted in a room equipped with a Vicon motion capture system composed of 20 Vicon T40S cameras. With such a system, we can assure a 6 DoF (Degrees of Freedom) localization of our system with a sub-millimetric accuracy as demonstrated in [23] and a high framerate (500fps). The camera used in the experiments is a uEye color camera from IDS with an image resolution of 1600 × 1200 pixels and a 60fps framerate.…”

Section: Experiments On Real Data With Vicon-based Ground Truthmentioning

confidence: 90%

Circular Laser/Camera-Based Attitude and Altitude Estimation: Minimal and Robust Solutions

et al. 2017

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This paper proposes a basic structured light system for pose estimation. It consists of a circular laser pattern and a camera rigidly attached to the laser source. We develop a geometric modeling that allows to efficiently estimate the pose at scale of the system, relative to a reference plane onto which the pattern is projected. Three different robust estimation strategies, including two minimal solutions, are also presented with this geometric formulation. Synthetic and real experiments are performed for a complete evaluation, both quantitatively and qualitatively, according to different scenarios and environments. We also show that the system can be embedded for UAV experiments.

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Section: Experiments On Real Data With Vicon-based Ground Truthmentioning

confidence: 90%

Circular Laser/Camera-Based Attitude and Altitude Estimation: Minimal and Robust Solutions

et al. 2017

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“…The X-Morf robot was mainly based on the X4-Mag quadrotor (see [9]): it is equipped with the same actuators, hardware and software. There are four different electronic boards: (i) A power management board fed by two battery packs placed below at the extremity of the lower arm.…”

Section: Electronicsmentioning

confidence: 99%

“…PID-Attitude controller and Adaptive angular rate controller. The observer, which we have called the nonlinear complementary filter, was first developed in [8] and adapted to our previous Quaternion robot (see [9]). The outer loop is the attitude controller, which is composed of a classical PID combined with a dynamic inversion process taking into account the nonlinearities induced by (6).…”

Section: Characteristicsmentioning

confidence: 99%

X-Morf: A crash-separable quadrotor that morfs its X-geometry in flight

Desbiez

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Boyron

et al. 2017

2017 Workshop on Research, Education and Development of Unmanned Aerial Systems (RED-UAS)

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Abstract-The X-Morf robot is a 380-g quadrotor consisting of two independent arms each carrying tandem rotors, forming an actuated scissor joint. The X-Morf robot is able to actively change in-flight its X-geometry by changing the angle between its two arms. The magnetic and electrical joint between the quadrotors arms makes them easily removable and resistant to crashes while providing the propellers with sufficient power and ensuring high quality signal transmission during flight. The dynamic model on which the X-Morf robot was based, was also used to design an adaptive controller. A Model Reference Adaptive Control (MRAC) law was implemented to deal with the uncertainties about the inertia and the center of mass due to the quadrotors reconfigurable architecture and for in-flight span-adapting purposes. The tests performed with the X-Morf robot showed that it is able to decrease and increase its span dynamically by up to 28.5% within 0.5s during flight while giving good stability and attitude tracking performances.

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“…Figure 2 shows the X4-MaG quadrotor used for the photographic acquisition of the capital, which was first presented in [13] in the form of a small, low-cost, open-source vehicle. The system is not equipped with a GPS system, as the flying arena equipped with 17 cameras-based motion capture system is the positioning system.…”

Section: Hardware Presentationmentioning

confidence: 99%

A Shape-Adjusted Tridimensional Reconstruction of Cultural Heritage Artifacts Using a Miniature Quadrotor

et al. 2016

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Abstract:The innovative automated 3D modeling procedure presented here was used to reconstruct a Cultural Heritage (CH) object by means of an unmanned aerial vehicle. Using a motion capture system, a small low-cost quadrotor equipped with a miniature low-resolution Raspberry Pi camera module was accurately controlled in the closed loop mode and made to follow a trajectory around the artifact. A two-stage process ensured the accuracy of the 3D reconstruction process. The images taken during the first circular trajectory were used to draw the artifact's shape. The second trajectory was smartly and autonomously adjusted to match the artifact's shape, then it provides new pictures taken close to the artifact and, thus, greatly improves the final 3D reconstruction in terms of the completeness, accuracy and quickness, in particular where the artifact's shape is complex. The results obtained here using close-range photogrammetric methods show that the process of automated 3D model reconstruction based on a robotized quadrotor using a motion capture system is a realistic approach, which could provide a suitable new digital conservation tool in the cultural heritage field.

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X4-MaG: A Low-Cost Open-Source Micro-Quadrotor and its Linux-Based Controller

Cited by 24 publications

References 19 publications

Circular Laser/Camera-Based Attitude and Altitude Estimation: Minimal and Robust Solutions

Circular Laser/Camera-Based Attitude and Altitude Estimation: Minimal and Robust Solutions

X-Morf: A crash-separable quadrotor that morfs its X-geometry in flight

A Shape-Adjusted Tridimensional Reconstruction of Cultural Heritage Artifacts Using a Miniature Quadrotor

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