Für den Inhalt der Angaben zeichnet die Projektleitung verantwortlich.
Dieses von der Gebert Rüf Stiftung geförderte Projekt wird von folgenden weiteren Projektpartnern mitgetragen: Robotic Systems Lab, ETH Zurich; Alphatronics; MABI robotics
Förderbeitrag: CHF 250'000
Dauer: 08.2018 - 12.2019
Handlungsfeld: Pilotprojekte, 1998 - 2018
Robotic Systems Lab
Leonhardstrasse 21, LEEH219
8092 Zürich (Schweiz)
- klajd.lika@mavt. ethz. ch
There is a massively growing demand for robotic systems that can collaborate with humans or other machines. In order to create machines that can robustly and safely interact with their environment, it is indispensable to precisely and reliably measure the interaction forces. Rokubi Mini is an integrated sensing solution for robots that serves that purpose. Rokubi Mini is extremely resistant against impacts, temperature changes and EMI, as initially was developed for quadruped robots, to measure the ground reaction forces when walking and running at harsh environments. As such, this technology can enhance robotic arms, exoskeletons, prosthetic devices, or robotic surgery platforms. Emphasis is given for applications with collaborative robots, which is an extremely growing market that demands our technology. Our force-torque sensors will give machines the sense of touch, will allow them to become smarter and to work side by side with humans. This is a step towards a smooth integration of robots with humans and an enabling technology for a variety of industry and research sectors.
Was ist das Besondere an diesem Projekt?
Rokubi Mini is a new technology to make robotics affordable, robust and safe for interaction with humans, for research and industry.
Force controlled robotic applications had until now limited use across the human-robot collaboration sector due to their high price and sensitivity against mishandlings. With this project, precise force control is going to become one of the standard options for a Collaborative Robot. Moreover, will give the robotic research sector the opportunity to widen its application areas, where human and robots can work together.
Our sensor is built with a very clever mechanical and electrical design that allows for high-precision and drift-free measurements and our electronics are developed very carefully to match it with excellent accuracy and repeatability.
To guarantee accuracy and reliability, our sensor will be the first 6-axis Force Torque measuring instrument that International Regulations of Legal Metrology will be applied on. This guarantee will make our technology a standard and essential part for healthcare robotics innovation.
The project starts in August 2018
Roman Kaeslin, Hendrik Kolvenbach, Laura Paez, Klajd Lika and Marco Hutter, «Towards a Passive Adaptive Planar Foot with Ground Orientation and Contact Force Sensing for Legged Robots», International Conference on Intelligent Robots (IROS 2018)
Am Projekt beteiligte Personen
Letzte Aktualisierung dieser Projektdarstellung 26.03.2019