Video Friday is your weekly selection of awesome robotics videos, collected by your Automaton bloggers. We’ll also be posting a weekly calendar of upcoming robotics events for the next few months; here’s what we have so far (send us your events!):
ROSCon 2021 – October 21-23, 2021 – New Orleans, LA, USA
Let us know if you have suggestions for next week, and enjoy today's videos.
I don't know why Telexistence's robots look the way they do, but I love it. They've got an ambitious vision as well, and just raised $20 million to make it happen.
A team of researchers of the Robotic Materials Department at the Max Planck Institute for Intelligent Systems and at the University of Colorado Boulder in the US has now found a new way to exploit the principles of spiders’ joints to drive articulated robots without any bulky components and connectors, which weigh down the robot and reduce portability and speed. Their slender and lightweight simple structures impress by enabling a robot to jump 10 times its height.
A team of scientists at Nanyang Technological University, Singapore (NTU Singapore) has developed millimetre-sized robots that can be controlled using magnetic fields to perform highly manoeuvrable and dexterous manipulations. This could pave the way to possible future applications in biomedicine and manufacturing.
The made-in-NTU robots improve on many existing small-scale robots by optimizing their ability to move in six degrees-of-freedom (DoF) – that is, translational movement along the three spatial axes, and rotational movement about those three axes, commonly known as roll, pitch and yaw angles.
While researchers have previously created six DoF miniature robots, the new NTU miniature robots can rotate 43 times faster than them in the critical sixth DoF when their orientation is precisely controlled. They can also be made with ‘soft’ materials and thus can replicate important mechanical qualities—one type can ‘swim’ like a jellyfish, and another has a gripping ability that can precisely pick and place miniature objects.
FANUC America’s paint robots are ideal for automating applications that are ergonomically challenging, hazardous and labor intensive. Originally focused solely on the automotive industry, FANUC’s line of electric paint robots and door openers are now used by a diverse range of industries that include automotive, aerospace, agricultural products, recreational vehicles and boats, furniture, appliance, medical devices, and more.
Analysis of the manipulation strategies employed by upper-limb prosthetic device users can provide valuable insights into the shortcomings of current prosthetic technology or therapeutic interventions. Typically, this problem has been approached with survey or lab-based studies, whose prehensile-grasp-focused results do not necessarily give accurate representations of daily activity. In this work, we capture prosthesis-user behavior in the unstructured and familiar environments of the participants own homes.
From HRI 2020, DFKI's new series-parallel hybrid humanoid called RH5, which is 2 m tall and weighs only 62.5 kg capable of performing heavy-duty dynamic tasks with 5 kg payloads in each hand.
The IEEE Robotics and Automation Society (IEEE/RAS) and the (IFR International Federation of Robotics) awarded the 2021 “Award for Innovation and Entrepreneurship in Robotics & Automation,” er, award, to Kuka for its PixelPaint technology. You can see their finalist presentation, along with presentations from the other worthy finalists in this video.