How do we make multiple robots work together seamlessly without getting bogged down by complexity? Researchers at the Chinese Academy of Sciences introduce the Sequential World Model (SeqWM), a novel approach where robots predict their own actions and share intentions based on
ROBOTICS
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Giant Robotic Hand Mirrors Human Movements in Real Time
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This Giant #Robotic Hand Mirrors Every Move He Makes
— Ronald van Loon (@Ronald_vanLoon) 14 avril 2026
by @x_viral_vibes#Robots #TechForGood #Technology #Innovation #EmergingTech pic.twitter.com/427hRYqR0SThis Giant #Robotic Hand Mirrors Every Move He Makes
by @x_viral_vibes #Robots #TechForGood #Technology #Innovation #EmergingTech -
GE-Sim 2.0 Advances Embodied Intelligence for Scalable Robot Learning
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GE-Sim 2.0 shows how simulation is evolving toward embodied intelligence, combining video generation, state estimation and policy evaluation in one framework
— Antonio Grasso (@antgrasso) 14 avril 2026
A relevant step for scalable robot learning#AGIBOT Partner#AGIBOTAIWeek #GenieEnvisioner #Robotics #visualsimulation https://t.co/OUFydX0y2VGE-Sim 2.0 shows how simulation is evolving toward embodied intelligence, combining video generation, state estimation and policy evaluation in one framework A relevant step for scalable robot learning #AGIBOT Partner #AGIBOTAIWeek #GenieEnvisioner #Robotics #visualsimulation
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BMW Tests AEON Humanoid Robot in Leipzig Factory
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One of the first real world pilots is already underway. At BMW’s Leipzig factory, BMW Group is testing the humanoid robot AEON together with Hexagon Robotics. Early focus areas: → Battery assembly → Component manufacturing If this works at scale, the future factory workforce could look very different. Watch the full video to see what this means for manufacturing. Don't miss out on the latest AI advancements! Sign up here to stay informed! intelligentworld.org/discove…
→ View original post on X — @ronald_vanloon, 2026-04-14 08:30 UTC
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AI-Powered Robotic Coordination: The Flexibility Revolution
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The real breakthrough is coordination. These systems combine: → Precision measurement systems → High performance actuators → AI based motion control This allows smooth, controlled movement in environments built for humans. Which means one robot could potentially: → Assemble batteries → Move components → Assist different workstations Flexibility becomes the new productivity multiplier.
→ View original post on X — @ronald_vanloon, 2026-04-14 08:30 UTC
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Humanoid Robots: Mobile Intelligence Replacing Fixed Industrial Automation
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Traditional industrial robots are powerful, but limited. They usually do one task In one place For years Humanoid robots change that equation. Instead of fixed automation, they introduce mobile intelligence. Key capability: → Multimodal sensor fusion They process multiple types of sensory data simultaneously. → 3D spatial intelligence They understand machines, spaces, and human movement. In other words, they see the factory like a human would.
→ View original post on X — @ronald_vanloon, 2026-04-14 08:30 UTC
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Humanoid Robots Now Working on Real Factory Production Floors
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What if the most flexible worker in your factory never gets tired, never calls in sick, and can switch jobs instantly?
— Ronald van Loon (@Ronald_vanLoon) 14 avril 2026
That’s the promise behind a new wave of humanoid robots now entering real factories.
Not labs. Not demos.
Actual production floors.
One example is happening… pic.twitter.com/JZFTP41QaNWhat if the most flexible worker in your factory never gets tired, never calls in sick, and can switch jobs instantly? That’s the promise behind a new wave of humanoid robots now entering real factories. Not labs. Not demos. Actual production floors. One example is happening right now at @BMWGroup. Here is what I found fascinating.
→ View original post on X — @ronald_vanloon, 2026-04-14 08:30 UTC
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Utilization Methods of Cyclorotor-Based Air Mobility
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Utilization Methods of Cyclorotor-Based Air Mobility
— Ronald van Loon (@Ronald_vanLoon) 14 avril 2026
via @ZappyZappy7
#Robotics #MachineLearning #ArtificialIntelligence #ML pic.twitter.com/ltjYEJpSIAUtilization Methods of Cyclorotor-Based Air Mobility via @ZappyZappy7 #Robotics #MachineLearning #ArtificialIntelligence #ML [Translated from EN to English]
→ View original post on X — @ronald_vanloon, 2026-04-14 07:27 UTC
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Robots Won’t Replace Us Quickly: Real World Limitations
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Surgeon in Rome performs remote robotic surgery in Beijing
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Surgeon in Rome performs remote #Robotic surgery on patient 8,000 km away in Beijing
— Ronald van Loon (@Ronald_vanLoon) 14 avril 2026
by @InterestingSTEM
#Healthcare #Healthech #Tech #Technology #EmergingTech #TechForGood pic.twitter.com/tcBwp1CFnMSurgeon in Rome performs remote #Robotic surgery on patient 8,000 km away in Beijing by @InterestingSTEM #Healthcare #Healthech #Tech #Technology #EmergingTech #TechForGood
→ View original post on X — @ronald_vanloon, 2026-04-14 06:23 UTC