Semi-autonomous flying robot for physical interaction with environment

Author

Albers, Albert ; Trautmann, Simon ; Howard, Thomas ; Nguyen, Trong Anh ; Frietsch, Markus ; Sauter, Christian

Author_Institution

IPEK - Inst. of Product Eng. Karlsruhe, KIT - Karlsruhe Inst. of Technol., Karlsruhe, Germany

fYear

2010

fDate

28-30 June 2010

Firstpage

441

Lastpage

446

Abstract

This contribution presents the first results of the development of an unmanned aerial vehicle (UAV) which is capable of applying force to a wall while maintaining flight stability. This is a novel idea since UAVs are used so far only for tasks without physical contact to the surrounding objects. The basis for the work presented is a quadrotor system which is stabilized with an inertial measurement unit. As a new approach an additional actuator was added to generate forces in physical contact while the UAV stays horizontal. A control architecture based on ultrasonic distance sensors and a CMOS-camera is proposed. The performance of the system was proved by several flight tests. Potential applications of the system can be physical tasks at high places like cleaning windows or walls as well as rescue or maintenance tasks.

Keywords

CMOS image sensors; actuators; aerospace robotics; mobile robots; remotely operated vehicles; CMOS-camera; actuator; cleaning tasks; flight stability; inertial measurement unit; maintenance tasks; quadrotor system; rescue tasks; semi-autonomous flying robot; ultrasonic distance sensors; unmanned aerial vehicle; Cleaning; Climbing robots; Helicopters; Humans; Measurement units; Reconnaissance; Rough surfaces; Surface roughness; Surveillance; Unmanned aerial vehicles; UAV; cleaning tasks; flying robot; helicopter; physical interaction; quadrotor;

fLanguage

English

Publisher

ieee

Conference_Titel

Robotics Automation and Mechatronics (RAM), 2010 IEEE Conference on

Conference_Location

Singapore

Print_ISBN

978-1-4244-6503-3

Type

conf

DOI

10.1109/RAMECH.2010.5513152

Filename

5513152