N1: The Open-Source Humanoid Robot by Fourier

Unitree Robotics🔹 Meet the Unitree R1 — the new frontier of affordable humanoid robotics “What once seemed like science fiction is now within reach.” Key Highlights: 🧠 Agile & Lightweight — ~25 kg, 121 cm tall, 24-26 DOF for smooth, complex motions 🔄 Fully Customizable — open interfaces for joints, sensors, simulation integration 🗣 Multimodal Intelligence — voice + visual recognition built in 🚀 Ready for Innovation — designed for developers, researchers, and robotics enthusiasts Use Cases We’re Excited About: Research & education (robotics labs, university projects) Physical AI & human–robot interaction demos Early prototyping for service, assistance, or entertainment robots Why this is a game-changer Up until now, humanoid robots were mostly restricted to high budgets, closed systems, or custom builds. With R1, Unitree is lowering that barrier—making humanoid exploration accessible to a wider community. Expect new collaborations, experiments, and breakthroughs. 👉 Curious how R1 can fit into your projects—be it academic, startup, or corporate robotics? Drop me a message or comment below. Let’s bring the next generation of humanoid tech to life. #Robotics #HumanoidRobot #AI #Innovation #UnitreeR1 #TechTrends #FutureOfWork #Automation

🤖 Roboticists from Drexel University are working to develop touch-sensitive clothing to help their robot distinguish something as nuanced as a tap on the shoulder from something as potentially dangerous as an aggressive push. https://spr.ly/6043A5jDJ #MATLAB #Simulink #robotics

🤖 The robotics industry just changed forever. Unitree has launched the R1 humanoid robot at an unprecedented $5,900 — shattering price barriers and making advanced robotics accessible to researchers, developers, and businesses worldwide. Why this matters: → At 70% cheaper than competitors, the R1 democratizes humanoid robotics → 26 joints enable acrobatic movements: cartwheels, handstands, running downhill → Integrated AI with voice and image recognition → Weighs just 25kg (55 lbs) — incredibly lightweight and agile → Developer-friendly platform with open control interfaces While Tesla's Optimus is projected at $20K+ and competitors price their humanoids at $50K-$100K, Unitree is making the future accessible today. The R1 represents more than affordability — it's a gateway for innovation. Universities, startups, and researchers who were previously priced out can now experiment, develop, and push the boundaries of what's possible. The robotics revolution isn't coming. It's here. What applications do you see for affordable humanoid robots in your industry? #Robotics #AI #Innovation #Automation #Technology #HumanoidRobots #FutureTech #Unitree

Chang Robotics has been formally recognized as an official industry member of the Human AugmentatioN via Dexterity Engineering Research Center (the HAND ERC), a multi-institutional research effort led by Northwestern University and supported by a $26 million grant from the National Science Foundation (NSF). #ChangRobotics #HANDERC #RoboticDexterity #NSF #Innovation #Automation #Manufacturing #HumanCenteredDesign https://lnkd.in/dWtTAsgn

🚀 Myo-Controlled Robot Project – Quick Success Challenge at Skolkovo Institute of Science and Technology During the Innovation Workshop’s Quick Success series, I had the opportunity to work on a project that combined biosignals and robotics in a very short timeframe. 🧩 The Challenge: Build a robot that can be controlled directly by human muscle activity using a Myo armband. Our prototype had to show a practical demo within just a few hours. ⚙️ What we did: Captured EMG signals (electrical activity of muscles) through the Myo armband. Programmed mappings of gestures (flex / relax) to motor movements of a small robot. Fine-tuned thresholds and responsiveness until the robot performed smoothly. 🎯 The Result: A functional Myo-controlled manipulator that could respond to gestures and push gaming blocks off a table in real time — proving how human–machine interaction can be prototyped quickly with the right tools and teamwork. 💡 Key Learnings: Translating biosignals into precise robotic motion. Hardware + software integration under time pressure. How rapid prototyping reveals the potential of next-gen human–machine interfaces. Grateful to the Skoltech Innovation Workshop team for designing such hands-on challenges that expand problem-solving and creativity. #MyoControl #Robotics #InnovationWorkshop #HumanMachineInterface #RapidPrototyping #Skoltech

Imagine controlling robotics with a wave of your hand! 🤖 Our latest project explores a #GestureControlled Robot Arm, putting intuitive control right at your fingertips. Using an accelerometer, we're translating natural hand movements into precise robotic actions. This isn't just about cool tech; it's about making automation more accessible and user-friendly. Think about applications in manufacturing, assistive technologies, or even creative fields. Key benefits: Intuitive Interaction: Say goodbye to complex programming. Enhanced Efficiency: Streamline tasks with natural movements. Versatile Applications: Adaptable across various industries. What possibilities do you see with gesture-controlled robotics? Share your thoughts below! #Robotics #Innovation #Tech 👏

Imagine controlling robotics with a wave of your hand! 🤖 Our latest project explores a #GestureControlled Robot Arm, putting intuitive control right at your fingertips. Using an accelerometer, we're translating natural hand movements into precise robotic actions. This isn't just about cool tech; it's about making automation more accessible and user-friendly. Think about applications in manufacturing, assistive technologies, or even creative fields. Key benefits: Intuitive Interaction: Say goodbye to complex programming. Enhanced Efficiency: Streamline tasks with natural movements. Versatile Applications: Adaptable across various industries. What possibilities do you see with gesture-controlled robotics? Share your thoughts below! #Robotics #Innovation #Tech 👏

🚀 Engineering Marvel: The Power of Soft Robotics! Did you know that the future of robotics isn’t made of rigid metal, but soft, squishy materials inspired by nature? 🐙 Soft robotics is transforming industries, from healthcare to disaster response. Imagine surgical robots that gently adapt to organs, or search-and-rescue bots slithering through rubble—just like octopuses or worms! Recent breakthroughs include wearable exosuits that help patients walk again and soft robotic grippers that delicately handle the world’s most fragile items. Why is this so exciting? Adaptability: Soft robots can squeeze into tight spaces and operate in environments unsafe for humans. Safety: Their gentle materials prevent injury, making human-robot interaction safer. Biomimicry: Engineers are learning from jellyfish, squid, and even starfish to create smarter machines. Isn’t it amazing to see how biology inspires the technology shaping our future? What biological ideas would you love to see engineered into real-world solutions? 🔗 Share your thoughts or comment about the most fascinating bio-inspired technology you've seen! #Engineering #Innovation #Robotics #Bioinspiration #STEM

Robots are evolving… Not just in strength, but in sensitivity. My latest article explores how soft manipulation within soft robotics is redefining the way machines interact with humans and the environment, from healthcare and manufacturing to everyday life. As I continue my research into the world of Soft Robotics, I thought of sharing my findings to inspire others. This article captures some amazing insights into the rapidly evolving field of Soft Robotics: - what defines soft manipulation and why it represents a major shift in robotic control - how bio-inspired materials and structures enable flexibility and tactile sensitivity - current advancements allowing robots to handle delicate, irregular, or dynamic objects - real world applications across healthcare, manufacturing, and assistive technologies I will continue to share my research findings as I make progress into this evolving field. Stay tuned for my future posts on soft robotic technology! Check it out here: https://lnkd.in/e9ifjZva #SoftRobotics #STEM #Innovation #Engineering #Robotics #Research #Technology #TheKnowledgeSociety

Breakthrough in Soft Robotics from POSTECH A team at Pohang University of Science and Technology (POSTECH) has developed a muscle-inspired robot that mimics the movement and strength of human tissue. This thin, flexible actuator can move in six directions, crawl like a caterpillar, and handle objects with remarkable precision- opening up possibilities in medicine, industrial automation, and caregiving. A perfect example of how nature-inspired engineering continues to transform the world of robotics and innovation. #Innovation #Robotics #STEMLearning #Biomimicry #FutureTechnology #Moonpreneur