The video on Friday is your weekly collection of wonderful robots, which have been collected by your friends on IEEE SICTRUM Robots. We also publish a weekly evaluation of the upcoming robots for the next few months. please Send us your events To include.
Icuas 2025: 14-17 May 2025, Charlotte, North Carolina
ICRA 2025: 19-23 May 2025, Atlanta
Humanoids summit in London: 29-30 May 2025, London
IEEE RCAR 2025: 1-6 June 2025, Toyama, Japan
2025 Power Summit drones and robots: 16-18 June 2025, Houston
RSS 2025: 21-25 June 2025, Los Angeles
Eth Robotics Summer School: 21-27 June 2025, Geneva
IAS 2025June 30 – July 4, 2025, Genoa, Italy
ICRES 2025: 3-4 July 2025, Porto, Portugal
IEEE World Haptics: 8-11 July 2025, Suwn, Korea
IFAC seminar on robots: 15-18 July 2025, Paris
Robocup 2025: 15-21 July 2025, Bahia, Brazil
RO-Man 2025: 25-29 August 2025, Eindhoven, Netherlands
Clawar 2025: 5-7 September 2025, Church.
Corle 2025: 27-30 September 2025, Seoul
IEEE HumanoidsSeptember 30 – October 2, 2025, Seoul
The top of the world robotOctober 10-12 2025, Osaka, Japan
Iros 2025: 19-25 October 2025, Hangzhou, China
Enjoy videos today!
Over the past year, Liva was designed from A to Z new robot to transport the loads. Although the use of robots is widespread in logistical services, a few solutions provide the ability to transfer transmission efficiently in controlled and unorganized environments. Robots with four legs are ideal for navigation in any environment that a person can, but a few have features to move counterfeit loads. This is the place where Liva shines. By combining both wheels (a perfect motor method for fast and accurate movement on flat surfaces) and legs (which is ideal for passing any terrain that people can) achieve a balance that makes it very versatile.
https://www.youtube.com/watch?
[ LEVA ]
Perhaps I heard about this human robot half a marathon in China, because he got a lot of media attention, which I assumed was the goal. And for those who remember when Asimo Running was a big deal, and the marathon running was still somewhat impressive. It is difficult to connect this with these robots that do anything practical, do you know?
https://www.youtube.com/watch?
[ NBC ]
The robot that moves in an external environment without prior knowledge of the area should be based on his local sensitivity to perceive its surroundings and plan. This can come in the form of a local metric map or a local policy with some fixed horizon. Moreover, there is fog of unknown space with some fixed cost. In this work, we make a major note that long -term mobility requires only to determine good border directions for planning rather than full knowledge. To this end, we suggest long -term Navigator (LRN), which learns an average representation of high -dimensional camera images to the border at reasonable prices for planning, then improve the maximum compatibility with the desired goal. Through extensive rough road experiences immediately and a large car, we find that increasing current navigation chimneys with LRN reduces human interventions at the time of testing and leads to a faster decision indicating the importance of LRN.
https://www.youtube.com/watch?
[ LRN ]
Goby is a built -in, capable and low -cost robot that allows you to detect mini worlds from its small perspective.
https://www.youtube.com/watch?
On the Cake Start is now, for 80 cheap US dollars.
[ Kickstarter ]
Thanks, Rich!
Hebi Robots showed an Inchworm worm during innovation in the first world robotics championships in Houston.
https://www.youtube.com/watch?
[ HEBI ]
Thanks, Andrew!
Happy Easter from Flexiv!
https://www.youtube.com/watch?
[ Flexiv ]
We are excited to provide our reinforcement algorithm, and refine it through wide simulations and wide training data, allowing our human robot on a large scale, Adam, to master human movement. Contrary to the control of the model based on the model, it gives our approach that RL is an exceptional adaptation. On difficult terrain such as uneven surfaces, Adam adjusts the steps, speed and balance smoothly in the actual time, and ensuring a stable and natural movement with increased efficiency and safety. The algorithm also provides liquid movement, graceful movement with smooth formatting of the joint, reducing mechanical corrosion, expanding the operational life, and reducing the use of energy significantly to improve endurance.
https://www.youtube.com/watch?
[ PNDbotics ]
Inside Fahim Laboratory – DR. Michael Bosa and dairy laboratory. Our research focuses on control, learning, planning and analyzing robots as they interact with the world. Whether the robot helps inside the house or works in the manufacturing factory, the primary promise of robots requires touching and affects a complex environment in a safe and controlled way. We focus on developing opposition -and -effective algorithms that enable robots to operate dynamically and safely because they work quickly through their environments and interaction.
https://www.youtube.com/watch?
[ DAIR Lab ]
I will never understand why robots feel the need to add pathology sounds when their robots move.
https://www.youtube.com/watch?
[ Kepler ]
Jo. In this deep diving, robots ghosts are died in the past-sharing stories behind the scenes, bold design decisions, lessons learned, and how the industry itself turned the gears.
https://www.youtube.com/watch?
[ Trossen ]
The Carnegie Mellon University Institute symposium this week (CMU RI) is a reactionary edition (2008!) From Charlie Kembi, formerly from the Robotics Healthcare Laboratory in Georgia Tech and now in Hello Robot.
https://www.youtube.com/watch?
[ CMU RI ]
The actual CMU RI symposium for this week is from a more modern version of Charlie Kemp.
https://www.youtube.com/watch?
When I started in robots, my goal was to help robots simulate humans. However, when my laboratory worked with people with movement disabilities, my success concepts have changed. For auxiliary applications, human simulation is less important than ease of use and interest. Aid in simple tasks, such as scratching itching or picking up a Muscat object, can make a meaningful difference in a person’s life. Even complete self -independence can be unwanted, because directing the robot actively can provide an independence and agency. In general, many benefits of automated help are derived from the non -human aspects of robots, such as being tireless, and can be controlled directly, and free of social characteristics that can prevent use.
While technical challenges abound on home robots trying to simulate humans, I will provide evidence that human scale manipulation can benefit people who suffer from home weakness in the near future. I will describe the work of my laboratory and Hello Robot, which shows opportunities for valuable assistance at home, including support for daily life, leading exercise, and enhancing social links. I will also make a recent progress by Hello Robot towards not being supervised at home by a person with severe movement disabilities.
[ CMU RI ]
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