Video Friday is your weekly collection of superior robotics movies, collected by your pals at IEEE Spectrum robotics. We additionally publish a weekly calendar of upcoming robotics occasions for the following few months. Please send us your events for inclusion.
IROS 2024: 14–18 October 2024, ABU DHABI, UAE
ICSR 2024: 23–26 October 2024, ODENSE, DENMARK
Cybathlon 2024: 25–27 October 2024, ZURICH
Humanoids 204: 22–24 November 2024, NANCY, FRANCE
Get pleasure from as we speak’s movies!
The interplay between people and machines is gaining growing significance as a result of advancing diploma of automation. This video showcases the event of robotic techniques able to recognizing and responding to human needs.
https://www.youtube.com/watch?v=iQuxP9NAsVc
By Jana Jost, Sebastian Hoose, Nils Gramse, Benedikt Pschera, and Jan Emmerich from Fraunhofer IML
[ Fraunhofer IML ]
People are able to repeatedly manipulating all kinds of deformable objects into complicated shapes, owing largely to our capability to cause about materials properties in addition to our capability to cause within the presence of geometric occlusion within the object’s state. To review the robotic techniques and algorithms able to deforming volumetric objects, we introduce a novel robotics activity of repeatedly deforming clay on a pottery wheel, and we current a baseline strategy for tackling such a activity by studying from demonstration.
https://www.youtube.com/watch?v=–wu5WJLSfg
By Adam Hung, Uksang Yoo, Jonathan Francis, Jean Oh, and Jeffrey Ichnowski from CMU Robotics Insittute
[ Carnegie Mellon University Robotics Institute ]
Suction-based robotic grippers are widespread in industrial purposes as a result of their simplicity and robustness, however [they] wrestle with geometric complexity. Grippers that may deal with assorted surfaces as simply as conventional suction grippers can be simpler. Right here we present how a fractal construction permits suction-based grippers to extend conformability and increase strategy angle vary.
https://www.youtube.com/watch?v=8idSuFKN29I
By Patrick O’Brien, Jakub F. Kowalewski, Chad C. Kessens, and Jeffrey Ian Lipton from Northeastern College Transformative Robotics Lab
We introduce a newly developed robotic musician designed to play an acoustic guitar in a wealthy and expressive method. In contrast to earlier robotic guitarists, our Expressive Robotic Guitarist (ERG) is designed to play a industrial acoustic guitar whereas controlling a large dynamic vary, millisecond-level be aware era, and quite a lot of enjoying methods akin to strumming, choosing, overtones, and hammer-ons.
By Ning Yang , Amit Rogel , and Gil Weinberg from Georgia Tech
[ Georgia Tech ]
The iCub undertaking was initiated in 2004 by Giorgio Metta, Giulio Sandini, and David Vernon to create a robotic platform for embodied cognition analysis. The primary objectives of the undertaking had been to design a humanoid robot, named iCub, to create a group by leveraging on open-source licensing, and implement a number of fundamental components of synthetic cognition and developmental robotics. Greater than 50 iCub have been constructed and used worldwide for numerous analysis initiatives.
[ Istituto Italiano di Tecnologia ]
By Yusuke Tanaka, Alexander Schperberg, Alvin Zhu, and Dennis Hong from UCLA
[ Robotics Mechanical Laboratory at UCLA ]
By Jia-Yeu Lin and Atsuo Takanishi from Waseda College
This video presents a quick historical past of robotic portray initiatives with the intention of teaching viewers in regards to the particular, core robotics challenges that individuals growing robotic painters face. We concentrate on 4 robotics challenges: controls, the simulation-to-reality hole, generative intelligence, and human-robot interplay. We present how numerous initiatives deal with these challenges with quotes from consultants within the discipline.
By Peter Schaldenbrand, Gerry Chen, Vihaan Misra, Lorie Chen, Ken Goldberg, and Jean Oh from CMU
[ Carnegie Mellon University ]
The wheeled humanoid neoDavid is without doubt one of the most complicated humanoid robots worldwide. All finger joints could be managed individually, giving the system distinctive dexterity. neoDavids Variable Stiffness Actuators (VSAs) allow very excessive efficiency within the duties with quick collisions, extremely energetic vibrations, or explosive motions, akin to hammering, utilizing power-tools, e.g. a drill-hammer, or throwing a ball.
[ DLR Institute of Robotics andMechatronics ]
LG Electronics’ journey to commercialize robotic navigation expertise in numerous areas akin to house, public areas, and factories can be launched on this paper. Technical challenges forward in robotic navigation to make an innovation for our higher life can be mentioned. With the imaginative and prescient on ‘Zero Labor Residence’, the following sensible house agent robotic will carry us subsequent innovation in our lives with the advances of spatial AI, i.e. mixture of robotic navigation and AI expertise.
By Hyoung-Rock Kim, DongKi Noh and Seung-Min Baek from LG
[ LG ]
HILARE stands for: Heuristiques Intégrées aux Logiciels et aux Automatismes dans un Robotic Evolutif. The HILARE undertaking began by the tip of 1977 at LAAS (Laboratoire d’Automatique et d’Analyse des Systèmes right now) below the management of Georges Giralt. The video options HILARE robotic and delivers explanations.
By Aurelie Clodic, Raja Chatila, Marc Vaisset, Matthieu Herrb, Stephy Le Foll, Jerome Lamy, and Simon Lacroix from LAAS/CNRS (Word that the video narration is in French with English subtitles.)
[ LAAS/CNRS ]
Humanoid legged locomotion is flexible, however sometimes used for reaching close by targets. Using a private transporter (PT) designed for people, akin to a Segway, presents an alternate for humanoids navigating the actual world, enabling them to modify from strolling to wheeled locomotion for protecting bigger distances, much like people. On this work, we develop management methods that permit humanoids to function PTs whereas sustaining steadiness.
By Vidyasagar Rajendran, William Thibault, Francisco Javier Andrade Chavez, and Katja Mombaur from College of Waterloo
Movement planning, and particularly in tight settings, is a key drawback in robotics and manufacturing. One notorious instance for a troublesome, tight movement planning drawback is the Alpha Puzzle. We current a primary demonstration in the actual world of an Alpha Puzzle resolution with a Common Robotics UR5e, utilizing an answer path generated from our earlier work.
By Dror Livnat, Yuval Lavi, Michael M. Bilevich, Tomer Buber, and Dan Halperin from Tel Aviv College
Interplay between people and their surroundings has been a key issue within the evolution and the growth of clever species. Right here we current strategies to design and construct a synthetic surroundings by interactive robotic surfaces.
By Fabio Zuliani, Neil Chennoufi, Alihan Bakir, Francesco Bruno, and Jamie Paik from EPFL
[ EPFL Reconfigurable Robotics Lab ]
On the intersection of swarm robotics and structure, we created the Swarm Backyard, a novel responsive system to be deployed on façades. The Swarm Backyard is an adaptive shading system manufactured from a swarm of robotic modules that reply to people and the surroundings whereas creating lovely areas. On this video, we showcase 35 robotic modules that we designed and constructed for The Swarm Backyard.
By Merihan Alhafnawi, Lucia Stein-Montalvo, Jad Bendarkawi, Yenet Tafesse, Vicky Chow, Sigrid Adriaenssens, and Radhika Nagpal from Princeton College
My workforce on the College of Southern Denmark has been pioneering the sphere of self-recharging drones since 2017. These drones are outfitted with a strong notion and navigation system, enabling them to establish powerlines and strategy them for touchdown. A singular function of our drones is their self-recharging functionality. They accomplish this by touchdown on powerlines and using a passively actuated gripping mechanism to safe themselves to the powerline cable.
By Emad Ebeid from College of southern Denmark
[ University of Southern Denmark (SDU) ]
This paper explores the design and implementation of Furnituroids, shape-changing cellular furnishings robots that embrace ambiguity to supply a number of and dynamic affordances for each particular person and social behaviors.
By Yasuto Nakanishi from Keio College
[ Keio University ]
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