Omnidirectional Tilt Rotor Flying Robots For Aerial Physical Interaction
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Omnidirectional Tilt-Rotor Flying Robots for Aerial Physical Interaction
This book deals with the study of tilt-rotor omnidirectional aerial robots and their application to aerial physical interaction tasks. Omnidirectional aerial robots possess decoupled translational and rotational dynamics, which are important for stable and sustained aerial interaction. The additional ability to dynamically re-orient thrust vectors opens the door to a wide array of possible morphologies and system capabilities. Through modeling, control, prototype design, and experimental evaluation, this book presents a comprehensive methodology and examples for the development of a novel tilt-rotor aerial manipulator. This work serves as a guide for envisioning and constructing innovative systems that will advance the frontier of aerial manipulation.
Experimental Robotics
This book presents scientific and practical developments in the emerging trends of human-centric robotics in unstructured environments, covering Human–Robot Collaboration, Mobile Robotics and Manipulation, Field Robotics, Aerial Robotics, Humanoids, and Autonomous Driving. It offers insights into the latest scientific and technological development in robot–human interactions, advanced autonomy, and robust designs for real-world applications. This edition's approach is characterized by strong scientific developments backed by practical applications, offering detailed case studies and experimental data that support the theoretical foundations of robotic technology. By emphasizing the application side of research, it encourages readers to consider not only, theoretical advancements in robotics but also the implications and opportunities for real-world integration.
Aerial Robotic Manipulation
Aerial robotic manipulation integrates concepts and technologies coming from unmanned aerial systems and robotics manipulation. It includes not only kinematic, dynamics, aerodynamics and control but also perception, planning, design aspects, mechatronics and cooperation between several aerial robotics manipulators. All these topics are considered in this book in which the main research and development approaches in aerial robotic manipulation are presented, including the description of relevant systems. In addition of the research aspects, the book also includes the deployment of real systems both indoors and outdoors, which is a relevant characteristic of the book because most results of aerial robotic manipulation have been validated only indoor using motion tracking systems. Moreover, the book presents two relevant applications: structure assembly and inspection and maintenance, which has started to be applied in the industry. The Chapters of the book will present results of two main European Robotics Projects in aerial robotics manipulation: FP7 ARCAS and H2020 AEROARMS. FP7 ARCAS defined the basic concepts on aerial robotic manipulation, including cooperative manipulation. The H2020 AEROARMS on aerial robot with multiple arms and advanced manipulation capabilities for inspection and maintenance has two general objectives: (1) development of advanced aerial robotic manipulation methods and technologies, including manipulation with dual arms and multi-directional thrusters aerial platforms; and (2) application to the inspection and maintenance.