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A robotic hand that learns like a human powered by #SiemensXcelerator. 🤖 Capable of adaptive, human‑like skills, this breakthrough in #PhysicalAI shows how our researchers make robotics truly programmable and scalable for the future of #IntelligentIndustries.

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13,078 views • 4 months ago •via X (Twitter)

#SiemensXcelerator#PhysicalAI#IntelligentIndustries
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Welcome to a "robot town" at this year's World Intelligence Expo, where a future powered by AI and robotics comes to life. From companion robots to robotic arms and human-like hands performing delicate tasks, innovation is on full display. A step closer to the future of intelligent living. #WorldIntelligenceExpo #Robotics #AI #Innovation #SmartTech #ChinaTech
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Welcome to a "robot town" at this year's World Intelligence Expo, where a future powered by AI and robotics comes to life. From companion robots to robotic arms and human-like hands performing delicate tasks, innovation is on full display. A step closer to the future of intelligent living. #WorldIntelligenceExpo #Robotics #AI #Innovation #SmartTech #ChinaTech

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The Clone hand is a compact, biomimetic robotic hand designed to mimic human anatomy and perform a diverse array of manipulation tasks. Credit: Clone Robotics
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The Clone hand is a compact, biomimetic robotic hand designed to mimic human anatomy and perform a diverse array of manipulation tasks. Credit: Clone Robotics

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Awesome! This is literally a superhuman hand. 🤖✋ ChangingTek Robotics just dropped a dexterous hand that actually morphs between left and right hand configurations on the fly. It uses cable-driven tech to pull off shapes and reverse bends that human hands can't even dream of doing. The power is real too, with a 50N grip force and 10N at the fingertips while staying precise within 0.1N. It is kind of like a rigid octopus, meaning it is tough enough to crank a wrench or screwdriver but smooth enough to grab a drink. Having this much range of motion in a single hand basically doubles the efficiency of any robotic arm in tight spots. Source: ChangingTek Robotics #Robot #Humanoid #Robotics #AI #EmbodiedAI #PhysicalAI #ChangingTek #DexterousHand #Bionics

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Introducing Our 7-DoF Robotic Arm - NERO: Unlock Human-Like Dexterity for Your Robotics Research🤖 It delivers seamless obstacle avoidance and detour ability. 🌐 📩 Sales@agilex.ai #AgileXRobotics #NERO
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Introducing Our 7-DoF Robotic Arm - NERO: Unlock Human-Like Dexterity for Your Robotics Research🤖 It delivers seamless obstacle avoidance and detour ability. 🌐 📩 [email protected] #AgileXRobotics #NERO

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Chinese robotics startup Rochu Robotics has developed a humanoid hand with a human-like skeletal structure for natural movement. The hand uses a hydraulic system and 24 biomimetic tendons instead of electric motors. This design improves flexibility, strength, and precise fingertip control.
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Chinese robotics startup Rochu Robotics has developed a humanoid hand with a human-like skeletal structure for natural movement. The hand uses a hydraulic system and 24 biomimetic tendons instead of electric motors. This design improves flexibility, strength, and precise fingertip control.

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A new Science Robotics study describes diverse designs for bioinspired robotic hands, including a human hand that can write on paper and an aye-aye hand that can grasp trees for climbing.
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Holy… 🤯 this is literally a superhuman hand. One hand can act as both a left and a right hand. Depending on the task or the object being grasped, it can autonomously switch between left-hand and right-hand configurations, bend in reverse, and achieve degrees of freedom beyond a human hand,maximizing the efficiency of a single hand. it comes from a company in Jiangsu called ChangingTek Robotics. You could say the hand is a bit like an octopus,but it isn’t soft. It’s rigid and capable of gripping tools like wrenches, screwdrivers, drinks, and basically almost any object.

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New NVIDIA physical AI agent-ready skills are changing how robotics researchers work. 🤖 With NVIDIA robotics skills, researchers can automate the most common development steps from scene preparation to simulation and learning with Omniverse libraries, Isaac frameworks, and physical AI open datasets. Specialized skills like Isaac Mobility extend that even further. Learn more ➡️

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Last year in Science Robotics, researchers reported the development of Third Thumb—a robotic appendage that, when trialed by members of the general public, was a big hit. Learn more: #ScienceMagArchives

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Hands are as important as the brain. From Shenzhen, Stella Robot has unveiled the PANTHEON HAND 22:a new generation of bionic dexterous hand that combines 22 degrees of freedom with remarkable strength and finesse. It’s a hand that truly understands precision. It can lift 30 kilograms, yet is delicate enough to thread a needle.Each finger can bear 1.5 kilograms, and the entire hand can gently hold a piece of tofu or sense the subtle expansion of a balloon. Powered by a tendon-driven mechanism with integrated actuators inside the forearm, it achieves compact design and natural, human-like movement. From precision assembly and component handling to material transport and human-robot collaboration,the PANTHEON HAND 22 shows what it means for humanoid robots to truly work with their hands.

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Teaching robots real dexterity has always been a challenge. But what if they could handle tools like a human? DexterityGen (DexGen) is a new system that helps robots use their hands better. It improves how they grip, move, and handle objects… from holding a pen to using a screwdriver. DexGen learns in simulation and refines its skills in the real world, making robotic hands much more useful. What makes DexGen special? ✅ Smarter movements that refine rough actions into precise skills ✅ Trained on a massive collection of dexterous tasks for better learning ✅ Better teleoperation that makes robotic hand control easier and safer ✅ Handles real-world challenges like small objects, tricky angles, and gravity This moves robots closer to real dexterity. It makes tool use more natural, improves stability, and brings robotic hands one step closer to human-level skill. Seen at Zhao-Heng Yin 🫶 Github: Paper:
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Teaching robots real dexterity has always been a challenge. But what if they could handle tools like a human? DexterityGen (DexGen) is a new system that helps robots use their hands better. It improves how they grip, move, and handle objects… from holding a pen to using a screwdriver. DexGen learns in simulation and refines its skills in the real world, making robotic hands much more useful. What makes DexGen special? ✅ Smarter movements that refine rough actions into precise skills ✅ Trained on a massive collection of dexterous tasks for better learning ✅ Better teleoperation that makes robotic hand control easier and safer ✅ Handles real-world challenges like small objects, tricky angles, and gravity This moves robots closer to real dexterity. It makes tool use more natural, improves stability, and brings robotic hands one step closer to human-level skill. Seen at Zhao-Heng Yin 🫶 Github: Paper:

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🤖 Three Japanese innovators just proved that the future of robotics can be printed — not assembled. 🇯🇵✨ I find this incredible. Japan has always led the world in robotics, but this breakthrough feels different — more creative, more human. A team of three brilliant minds has built a fully functional 3D-printed robotic system, rethinking everything from the gears to the frame. The result? Robots that are lighter, faster to produce, and easier to customize than ever before. What fascinates me is how this blends engineering and imagination — where design isn’t constrained by parts, but shaped by possibilities. This could change how we build robots, how we teach automation, and how quickly we bring new ideas to life. Would you trust a 3D-printed robot to work alongside you? #AI #Innovation #Technology #Robotics #3DPrinting #Automation #FutureOfWork #Engineering

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517,508 views • 5 months ago

We believe we’re the first robotics company to demonstrate a robot peeling an apple with dual dexterous human-like hands. This breakthrough closes a key gap in robotics, achieving bimanual, contact-rich manipulation and moving far beyond the limits of simple grippers. 🧵↓ Today’s AI models (VLMs) are excellent at perception but struggle with action. Controlling high-degree-of-freedom hands for tasks like this is incredibly complex, and precise finger-level teleoperation is nearly impossible for humans. Our first step was a shared-autonomy system: rather than controlling every finger, the operator triggers pre-learned skills like a “rotate apple or tennis ball” primitive via a keyboard press or pedal. This makes scalable data collection and RL training possible. How does the AI manage this? We created "MoDE-VLA" (Mixture of Dexterous Experts). It fuses vision, language, force, and touch data by using a team of specialist "experts," making control in high-dimensional spaces stable and effective. The combination of these two innovations allows for seamless, contact-rich manipulation. The human provides high-level guidance, and the robot executes the complex in-hand coordination required. This work paves the way for robots that can safely handle delicate tasks in human environments. Want the full technical details? 📄 Read the full research paper: Visit us at NVIDIA GTC Booth #1838, Hall 3 to learn more! #Robotics #AI #DexterousManipulation #VLA #NVIDIAGTC Nancy Villicaña NVIDIA GTC
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We believe we’re the first robotics company to demonstrate a robot peeling an apple with dual dexterous human-like hands. This breakthrough closes a key gap in robotics, achieving bimanual, contact-rich manipulation and moving far beyond the limits of simple grippers. 🧵↓ Today’s AI models (VLMs) are excellent at perception but struggle with action. Controlling high-degree-of-freedom hands for tasks like this is incredibly complex, and precise finger-level teleoperation is nearly impossible for humans. Our first step was a shared-autonomy system: rather than controlling every finger, the operator triggers pre-learned skills like a “rotate apple or tennis ball” primitive via a keyboard press or pedal. This makes scalable data collection and RL training possible. How does the AI manage this? We created "MoDE-VLA" (Mixture of Dexterous Experts). It fuses vision, language, force, and touch data by using a team of specialist "experts," making control in high-dimensional spaces stable and effective. The combination of these two innovations allows for seamless, contact-rich manipulation. The human provides high-level guidance, and the robot executes the complex in-hand coordination required. This work paves the way for robots that can safely handle delicate tasks in human environments. Want the full technical details? 📄 Read the full research paper: Visit us at NVIDIA GTC Booth #1838, Hall 3 to learn more! #Robotics #AI #DexterousManipulation #VLA #NVIDIAGTC Nancy Villicaña NVIDIA GTC

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How to learn dexterous manipulation for any robot hand from a single human demonstration? Check out DexMachina, our new RL algorithm that learns long-horizon, bimanual dexterous policies for a variety of dexterous hands, articulated objects, and complex motions.
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How to learn dexterous manipulation for any robot hand from a single human demonstration? Check out DexMachina, our new RL algorithm that learns long-horizon, bimanual dexterous policies for a variety of dexterous hands, articulated objects, and complex motions.

Mandi Zhao

120,188 views • 1 year ago

Baidu’s self-driving taxis in China drive very robotic and nowhere near the human-like smoothness of a Tesla Robotaxi. Not even close.
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Baidu’s self-driving taxis in China drive very robotic and nowhere near the human-like smoothness of a Tesla Robotaxi. Not even close.

Nic Cruz Patane

1,001,746 views • 10 months ago

According to Elon Musk, medicine is evolving into a digital system powered by programmable synthetic RNA. He compares the human body to software that can be rewritten internally to repair illnesses and transform healthcare forever. “The future of medicine will be digital.”
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According to Elon Musk, medicine is evolving into a digital system powered by programmable synthetic RNA. He compares the human body to software that can be rewritten internally to repair illnesses and transform healthcare forever. “The future of medicine will be digital.”

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