Automatica 2016
Published on Jul 12, 2016
On this year Automatica Yaskawa has shown many new products and systems. This film gives you an overview about.
Article "Automatica’s exhibitors were trumpeting Industry 4.0. Is this the turning point for robotics?"
by SPARC, Adriana Hamacher
July 4, 2016
DENSO Robotics Europe at Automatica 2016 Munich, Germany
Published on Jul 26, 2016
DENSO Robotics presented - first time in Europe - its New HSR Robot Series, the Innovative COBOTTA for Human-Robot-Collaboration and Industry 4.0/IoT Applications.
In addition, watch "Safety Motion" demonstration illustrated how working closely together with industrial robots can be made even safer thanks to a set of pre-defined, virtual safety zones...and more.
Toshiba Machine at Automatica 2016 Adrian Mujller ELMOTEC Antriebstechnik AG
Published on Jul 27, 2016
Adrian Mujler extols the adaptability & agileness of TM Robotics Toshiba Machine Industrial Robots used with ELMOTEC's soldering capabilities and the development, construction, and production of electrical drives/controllers.
TM Robotics CEO Nigel Smith RE: Automatica 2016
Published on Jul 27, 2016
TM Robotics CEO Nigel Smith reviews the many uses of the complete range of SCARA, Cartesian, and 6-Axis industrial robots that provide agile automation at the AUTOMATICA 2016 conference.
Human-centered Robotics at the Automatica 2016 in Munich
Published on Aug 11, 2016
Intuitive programming and robot skills
There is an ongoing shift in industry from mass production to low-batch production with highly individualized goods.
This increases the effort to program robots, which is typically carried out by robot experts. For keeping the production economical, new programming approaches are required that allow non-expert human coworkers to instruct robots easily.
One approach to make programming more intuitive is to use robotic skills that are preprogrammed, however flexible, software modules that only need to be parametrized. Robot skills contain all information, behavioral logic, recover strategies, controllers, etc., which are needed to execute a certain task such as drilling or screwing. The non-expert can sequence single skills to obtain a complex autonomous or interactive robot task while only setting a limited number of parameters.
At DLR, a skill software architecture has been developed which is robust, fast to parameterize, and can handle dynamic, physical human-robot interaction. For multimodal interaction, intuitive user interfaces have been developed.
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