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7 results on '"Ricardo Rosales"'

1. Aerial Torsional Work Utilizing a Multirotor UAV with Add-on Thrust Vectoring Device

Author

Ricardo Rosales Martinez, Hannibal Paul, and Kazuhiro Shimonomura

Subjects
multirotor, aerial manipulation, torsional work, thrust vectoring, valve manipulation, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

Aerial manipulation aims to combine the versatility and the agility of aerial platforms with the manipulation capabilities of robotic arms. Their fast deployment allows for their implementation in maintenance tasks and support during disaster situations. However, the under-actuated nature of multirotor UAVs limits the magnitude and direction of the forces an aerial vehicle can safely exert during manipulation tasks. In this paper, the problems associated with UAVs and torsional tasks constraints regarding valve turning are addressed. An add-on thrust vectoring device which enhances manipulation options available to a conventional multirotor UAV is developed and described. The proposed system allows for a partial decoupling of the attitude and velocity vector of a multirotor. This permits stable translational flight and higher torque capabilities for torsional tasks. The separation of attitude and the velocity vector that allows for the design of a passive mechanism for valve operation is presented in this paper as well. The experimental results illustrate the forces and torques that can be generated in the evaluated operation modes.

Published
2023
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2. Lightweight Multipurpose Three-Arm Aerial Manipulator Systems for UAV Adaptive Leveling after Landing and Overhead Docking

Author

Hannibal Paul, Ricardo Rosales Martinez, Robert Ladig, and Kazuhiro Shimonomura

Subjects
unmanned aerial vehicles (UAVs), aerial manipulation, manipulator design, multi-purpose manipulator, landing gear, docking, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

In aerial manipulation, the position and size of a manipulator attached to an aerial robot defines its workspace relative to the robot. However, the working region of a multipurpose robot is determined by its task and is not always predictable prior to deployment. In this paper, the development of a multipurpose manipulator design for a three-armed UAV with a large workspace around its airframe is proposed. The manipulator is designed to be lightweight and slim in order to not disrupt the UAV during in-flight manipulator movements. In the experiments, we demonstrate various advanced and critical tasks required of an aerial robot when deployed in a remote environment, focusing on the landing and docking tasks, which is accomplished using a single manipulator system.

Published
2022
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3. Flying Washer: Development of High-Pressure Washing Aerial Robot Employing Multirotor Platform with Add-On Thrusters

Author

Ryo Miyazaki, Hannibal Paul, Takamasa Kominami, Ricardo Rosales Martinez, and Kazuhiro Shimonomura

Subjects
aerial manipulation, high-pressure washing, multirotor UAV, field robot system, Motor vehicles. Aeronautics. Astronautics, TL1-4050
Abstract

In this study, we propose a multirotor aerial robot for high-pressure washing tasks at high altitudes. The aerial robot consists of a multirotor platform, an add-on planar translational driving system (ATD), a visual sensing system, and a high-pressure washing system. The ATD consists of three ducted fans, which can generate force in all directions on the horizontal plane. The ATD also allows the multirotor to suppress the reaction force generated by the nozzle of a high-pressure washing system and inject water accurately. In this study, we propose a method to precisely inject water by installing an ATD in the multirotor and using its driving force to suppress the reaction force and move the multirotor while keeping its posture horizontal. The semi-autonomous system was designed to allow the operator to maneuver the multirotor while maintaining a constant distance from the wall by the sensor feedback with onboard LiDAR or stereo camera. In the experiment, we succeeded in performing the high-pressure washing task in a real environment and verified that the reaction force generated from the nozzle was actually suppressed during the task.

Published
2022
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7. Flying Washer: Development of High-Pressure Washing Aerial Robot Employing Multirotor Platform with Add-On Thrusters

Author

Kominami Takamasa, Ryo Miyazaki, Ricardo Rosales Martinez, Hannibal Paul, and Kazuhiro Shimonomura

Subjects
Artificial Intelligence, Control and Systems Engineering, Aerospace Engineering, aerial manipulation, high-pressure washing, multirotor UAV, field robot system, Computer Science Applications, Information Systems
Abstract

In this study, we propose a multirotor aerial robot for high-pressure washing tasks at high altitudes. The aerial robot consists of a multirotor platform, an add-on planar translational driving system (ATD), a visual sensing system, and a high-pressure washing system. The ATD consists of three ducted fans, which can generate force in all directions on the horizontal plane. The ATD also allows the multirotor to suppress the reaction force generated by the nozzle of a high-pressure washing system and inject water accurately. In this study, we propose a method to precisely inject water by installing an ATD in the multirotor and using its driving force to suppress the reaction force and move the multirotor while keeping its posture horizontal. The semi-autonomous system was designed to allow the operator to maneuver the multirotor while maintaining a constant distance from the wall by the sensor feedback with onboard LiDAR or stereo camera. In the experiment, we succeeded in performing the high-pressure washing task in a real environment and verified that the reaction force generated from the nozzle was actually suppressed during the task.

Published
2022

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