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A single destination for timely, editor-curated robotics news from around the world.

Smooth Moves: 90 Frames-Per-Second Virtual Reality Arrives on GeForce NOW

Smooth Moves: 90 Frames-Per-Second Virtual Reality Arrives on GeForce NOW

This Thursday, GeForce NOW is set to enhance the gaming experience with a double feature, introducing smoother visuals in virtual reality (VR) and the launch of the expansive new game, Crimson Desert. Gamers using supported VR headsets will benefit from streaming capabilities at 90 frames per second (fps), significantly improving the quality of gameplay. The update aims to provide users with a more immersive and seamless experience as they explore new virtual landscapes. This initiative reflects GeForce NOW's commitment to advancing gaming technology and meeting the demands of its user base.

Tech Is Taking Over Olympic Curling

Tech Is Taking Over Olympic Curling

At the Winter Olympics in Italy, a controversy erupted in curling over a disputed double-touch incident, igniting debates about sportsmanship and trust within the sport. As the competition unfolds, the rise of AI and robotics in curling has raised questions about the integrity of the game. Robots like "Curly," which can analyze ice conditions and execute precise shots, have already defeated top human curlers, showcasing the potential of technology to transform the sport. This shift has sparked concern among athletes and ethicists about the erosion of traditional skills and the "Spirit of Curling," which emphasizes integrity and respect. The World Curling Federation faces challenges in regulating these advancements, as the integration of AI could shift decision-making from players to algorithms. While some technologies, such as rock launchers and virtual reality systems, aim to enhance training and accessibility, the overarching trend indicates a growing reliance on data-driven strategies. As nations invest heavily in these innovations to gain competitive advantages, the future of curling may be redefined by technology, prompting a critical examination of what it means to compete fairly in a sport long governed by human intuition and experience.

Robotics Artificial-intelligence Virtual-reality Sports Canada Olympic-games
MIT Engineers Develop Ultrasound Wristband for Real-Time Robotic Hand Control

MIT Engineers Develop Ultrasound Wristband for Real-Time Robotic Hand Control

MIT engineers have created an innovative ultrasound wristband that allows wearers to control a robotic hand through their own movements. This wristband captures real-time images of the wrist's muscles and tendons, translating them into the positions of the fingers and palm using an AI algorithm. Demonstrations have shown that users can wirelessly manipulate a robotic hand to perform tasks like playing the piano or shooting a basketball. This technology is significant as it offers a new method for hand tracking in robotics and virtual reality, potentially replacing traditional techniques that rely on cameras or sensor-laden gloves. The wristband's ability to gather diverse hand motion data could lead to advancements in training humanoid robots for dexterous tasks, including surgical procedures. Xuanhe Zhao, a professor at MIT, emphasizes the immediate impact this work could have on both virtual environments and robotic dexterity. Looking ahead, the research team aims to expand their dataset of hand motions by collecting data from users with varying hand sizes and gestures. This could enhance the capabilities of humanoid robots and improve interactions in virtual settings. No further timeline was disclosed at the time of publication.

Robot Talk Episode 161 – Collaborative haptic systems, with Allison Okamura

Robot Talk Episode 161 – Collaborative haptic systems, with Allison Okamura

Claire recently engaged in a conversation with Allison Okamura, a prominent figure in the field of engineering at Stanford University, where she holds the position of Richard W. Weiland Professor. The discussion centered on the development of advanced robotic systems designed for haptic interaction, which allows users to experience touch sensations through technology. Okamura's research encompasses a wide range of interests, including haptics, teleoperation, virtual reality, medical robotics, soft robotics, rehabilitation, and education. As the Director of Graduate Studies for Mechanical Engineering at Stanford, she is at the forefront of integrating these innovative technologies into various applications, aiming to enhance user experience and interaction in both medical and educational settings. The dialogue highlights the significance of haptic technology in creating more immersive and effective robotic systems, reflecting ongoing advancements in the field.

FIFA World Cup 2026 gets Hyundai robot dogs for venue security patrols

FIFA World Cup 2026 gets Hyundai robot dogs for venue security patrols

As the 2026 FIFA World Cup approaches, Hyundai Motor Company has unveiled its latest marketing campaign aimed at enhancing fan engagement during the tournament. The initiative, which was announced in early October 2023, will leverage innovative technology and interactive experiences to connect soccer enthusiasts across North America. Hyundai's campaign is designed to capitalize on the excitement surrounding the World Cup, which is set to take place in the United States, Canada, and Mexico. The automotive giant aims to strengthen its brand presence and foster a deeper connection with fans by integrating digital platforms and live events into its promotional strategy. Through a series of interactive activations, Hyundai plans to provide fans with unique opportunities to participate in the World Cup experience, including virtual reality experiences and social media engagements. This approach not only highlights Hyundai's commitment to the sport but also aligns with its broader marketing objectives of reaching a diverse audience and enhancing customer loyalty. By embracing the global appeal of soccer, Hyundai seeks to position itself as a key player in the automotive market while celebrating the spirit of the World Cup. The campaign reflects the company's dedication to innovation and community engagement, aiming to create memorable moments for fans during this prestigious sporting event.

AI and Robotics
TARS Brings Real-Life Embodied AI to ICRA 2026 Robotics Conference

TARS Brings Real-Life Embodied AI to ICRA 2026 Robotics Conference

TARS has unveiled its latest innovation, the DexHand, which promises to revolutionize hand-brain integration. The launch took place in October 2023, showcasing the device's advanced capabilities in enhancing human-computer interaction. This cutting-edge technology is designed to interpret hand signals and translate them into digital commands, aiming to improve efficiency in various fields, including robotics and virtual reality. The motivation behind the development of DexHand stems from the growing need for seamless communication between humans and machines, particularly as industries increasingly rely on automation and smart technologies. By utilizing sophisticated sensors and machine learning algorithms, the DexHand interprets a wide range of hand gestures, allowing users to control devices with precision and ease. The introduction of this device marks a significant step forward in the field of human-computer interaction, potentially transforming how users engage with technology in everyday tasks and specialized applications. As TARS continues to push the boundaries of innovation, the DexHand stands out as a pivotal advancement in bridging the gap between human intention and machine response.

VinRobotics makes global debut of "Make In Vietnam" humanoid robot at leading global tech events

VinRobotics makes global debut of "Make In Vietnam" humanoid robot at leading global tech events

On the opening day of ICRA 2026, VinRobotics showcased its latest humanoid robot, captivating attendees with its advanced remote operation capabilities. The robot's functionality is powered by motion-capture technology seamlessly integrated into a virtual reality headset, allowing users to control it without the need for any additional external devices. This innovative approach highlights VinRobotics' commitment to enhancing human-robot interaction and streamlining operational efficiency in various applications. The event, held in a prominent venue, attracted a diverse audience eager to witness the future of robotics firsthand.

How Physical AI Is Closing the Gap Between Simulation and the Shop Floor

How Physical AI Is Closing the Gap Between Simulation and the Shop Floor

A new generation of systems is emerging that not only simulates the physical world but also engages in real-time reasoning and actions. This advancement is driven by a sophisticated spatial computing stack that integrates foundation models, AI-generated software, and high-fidelity 3D sensing technologies. These systems aim to enhance interactions with the environment, providing more intuitive and responsive experiences. The development is part of a broader trend in technology aimed at creating smarter, more adaptive solutions across various industries, including gaming, robotics, and virtual reality. As these innovations continue to evolve, they promise to transform how users interact with digital and physical spaces, paving the way for more immersive and effective applications.

More Than Meets the Eye: NVIDIA RTX-Accelerated Computers Now Connect Directly to Apple Vision Pro

More Than Meets the Eye: NVIDIA RTX-Accelerated Computers Now Connect Directly to Apple Vision Pro

NVIDIA and Apple have announced a collaboration that integrates NVIDIA CloudXR 6.0 natively into visionOS, enhancing the capabilities of augmented and virtual reality applications. This partnership aims to securely deliver high-performance simulations and professional 3D graphics applications, including Immersive for Autodesk VRED, through Innoactive’s XR streaming service. The integration is set to provide users with advanced graphics powered by NVIDIA's RTX technology, significantly improving the experience for developers and users in the XR space. This development comes as both companies seek to leverage their strengths in graphics processing and software innovation to meet the growing demand for immersive experiences in various industries.

K-Scale Labs Demos Low-Latency Humanoid Teleoperation in New Garage Video

K-Scale Labs Demos Low-Latency Humanoid Teleoperation in New Garage Video

An open-source robotics startup has unveiled a new video that highlights the capabilities of its K-Bot humanoid robot, which is being operated in real-time by a virtual reality (VR) equipped user. The demonstration, released recently, showcases the robot's remarkable stability and fluid movements, achieved with low latency. This advancement in robotics technology illustrates the potential for enhanced human-robot interaction and could pave the way for future applications in various fields, including manufacturing and personal assistance. The startup aims to push the boundaries of robotics by integrating VR technology, allowing operators to control the humanoid with greater precision and responsiveness.

k-scale k-bot
Video: Extend Robotics Tests VR-Controlled Humanoid Robot for Hazardous EV Truck Tasks at Leyland

Video: Extend Robotics Tests VR-Controlled Humanoid Robot for Hazardous EV Truck Tasks at Leyland

Extend Robotics and Leyland Trucks are collaborating on innovative trials involving virtual reality-controlled robots aimed at enhancing safety in electric vehicle truck manufacturing. The initial phase of testing, which commenced recently, focuses on the remote operation of robots to safely connect high-voltage components, a task that poses significant hazards to human workers. This initiative not only seeks to mitigate risks associated with dangerous tasks but also explores the potential for artificial intelligence to learn from human demonstrations, thereby improving the efficiency and effectiveness of robotic operations. The partnership underscores a commitment to advancing technology in the automotive industry while prioritizing worker safety.

extend-robotics
MIT and Toyota Research Institute Unveil SceneSmith for Robot Household Training

MIT and Toyota Research Institute Unveil SceneSmith for Robot Household Training

MIT's Computer Science and Artificial Intelligence Laboratory (CSAIL) and the Toyota Research Institute have developed SceneSmith, an AI-powered system that allows robots to practice household tasks in a virtual environment. This system utilizes three visual language models to collaboratively create realistic 3D scenes, enabling robots to learn complex skills through extensive simulation. SceneSmith not only generates lifelike environments but also incorporates physical properties like mass, friction, and inertia, allowing robots to interact meaningfully within these spaces. The research team tested over 100 unique action plans in the digital world, revealing flaws in the robots' planning that were validated by human consensus over 99% of the time, helping to refine their strategies before real-world application. The effectiveness of SceneSmith was highlighted at a recent international machine learning conference, where it received positive feedback from over 200 testers, with more than 90% rating its visual realism highly. As robots learn to perform tasks like moving objects in a kitchen, the prospect of robots handling household chores may soon become a reality.

AI Robotics Virtual Reality Machine Learning
SoftServe Introduces Virtual Gyms for Enhanced Robotics Training and Deployment

SoftServe Introduces Virtual Gyms for Enhanced Robotics Training and Deployment

SoftServe has highlighted the importance of 'virtual gyms' for robotics teams, emphasizing their role in preparing robots for dynamic environments. These high-fidelity simulation environments allow robots to train, fail, and recover safely before real-world deployment, addressing the challenges posed by unpredictable operational conditions. The global robotics market is projected to grow at a 19.6% CAGR from 2026 to 2036, underscoring the need for effective training solutions like virtual gyms to enhance robotic autonomy and performance. The shift from programmed automation to physical AI necessitates that robots adapt to constantly changing environments, which traditional training methods struggle to accommodate. Virtual gyms integrate technologies such as digital twins, reinforcement learning, and sensor modeling to provide a comprehensive training platform. This approach mitigates the risks and costs associated with real-world trials, enabling teams to generate valuable training data in a controlled setting, thus improving deployment success rates. Looking ahead, the adoption of virtual gyms is expected to become a standard practice in robotics development, as they offer a solution to the simulation-to-reality gap. No further timeline was disclosed at the time of publication, but the increasing complexity of robotic tasks suggests that the demand for such training environments will continue to rise as the industry evolves.

Artificial Intelligence Artificial Intelligence / Cognition Autonomous Mobile Robots (AMRs) Development Tools / SDKs / Libraries Industrial Robots Logistics
Chinese Companies Explore World Models for AI Simulation of Environments

Chinese Companies Explore World Models for AI Simulation of Environments

Artificial intelligence is evolving with a focus on 'world models,' which simulate environmental responses to actions. This shift is gaining traction among Chinese companies, expanding the application of these models beyond traditional physics and robotics. The technology is still developing, with no clear consensus on its final form, indicating a significant area of exploration for AI advancements. The significance of world models lies in their potential to enhance AI's predictive capabilities, allowing systems to anticipate changes in both physical and digital environments. This could lead to improved decision-making processes across various sectors, as companies leverage these models to better understand and interact with their surroundings. The growing interest from major tech firms highlights the competitive landscape surrounding this emerging technology. Looking ahead, the development of world models is expected to progress, although specific timelines for advancements or implementations remain undisclosed. As the industry continues to explore this frontier, stakeholders should monitor the evolution of standards and applications that will shape the future of AI simulation technologies.

Video Friday: Digit Learns to Dance—Virtually Overnight

Video Friday: Digit Learns to Dance—Virtually Overnight

In a recent roundup of advancements in robotics, IEEE Spectrum highlighted several notable developments and upcoming events in the field. Among the key innovations is Digit, a humanoid robot that can learn new whole-body control capabilities overnight through sim-to-real reinforcement training, enhancing its performance in various tasks. Additionally, the introduction of GEN-1 marks a significant milestone in robot learning, achieving a 99% success rate in simple physical tasks and drastically reducing task completion time. Unitree has made strides by open-sourcing the UnifoLM-WBT-Dataset, a comprehensive dataset for humanoid robot teleoperation, which has been available since March 5, 2026. Meanwhile, researchers presented MRReP, a Mixed Reality interface that allows users to guide autonomous mobile robots in human-shared environments through hand gestures. In other developments, Sanctuary AI showcased its advanced hydraulic hands capable of dexterous manipulation, while China’s Yuxing 3-06 satellite successfully completed an in-orbit refueling test, paving the way for future satellite servicing. Furthermore, Japan Railway West collaborated with Serendix to utilize 3D printing technology for rapid construction at Hatsushima station, demonstrating innovative solutions to infrastructure challenges. Upcoming robotics events include ICRA 2026 in Vienna from June 1-5, and the Summer School on Multi-Robot Systems in Prague from July 29 to August 4, 2026, providing platforms for further exploration and collaboration in the robotics sector.

Humanoid-robots Video-friday Robot-ai Human-robot-interaction Teleoperation Industrial-robots
Scott Walter: Why Humanoid Robots Just Need to Be "Good Enough"

Scott Walter: Why Humanoid Robots Just Need to Be "Good Enough"

Dr. Scott Walter, a leading figure in robotic technology, has dedicated the past 40 years to exploring the convergence of virtual design and physical reality. In a recent interview, he shared insights on the current state of robotics, particularly focusing on Tesla’s Optimus humanoid robot. Walter discussed the challenges surrounding robotic hands, referencing the "Fermi paradox" to illustrate the complexities of creating effective robotic manipulation. He also addressed prevalent misconceptions regarding the safety of home robots, emphasizing that the industry is now poised to tackle issues that have persisted since 1985. This evolution in robotics is attributed to advancements in technology and a growing understanding of human-robot interaction, suggesting a promising future for the field.

Scott Walter Interview
Students from across the Northeast step inside MIT.nano’s cleanroom

Students from across the Northeast step inside MIT.nano’s cleanroom

A hands-on boot camp is currently underway, aimed at teaching integrated photonics to students from community and four-year colleges in the region. This educational initiative, which focuses on practical skills and knowledge in the rapidly evolving field of photonics, is designed to equip participants with the necessary tools to excel in this technology-driven industry. The program is taking place in local educational institutions, fostering collaboration and learning among students from diverse backgrounds. By providing this training, organizers hope to enhance the workforce's capabilities and address the growing demand for expertise in integrated photonics. The boot camp emphasizes experiential learning, allowing students to engage directly with the technology and gain valuable insights into its applications and implications.

Materials Research Laboratory MIT.nano Education, teaching, academics STEM education Manufacturing Industry
New chip could help tiny robots traverse complex environments

New chip could help tiny robots traverse complex environments

A team of researchers has developed an innovative method for creating 3D maps to enhance navigation systems, utilizing a combination of an efficient algorithm and specialized hardware. This advancement, which was announced in October 2023, aims to significantly reduce the memory and power requirements typically associated with 3D mapping technologies. By streamlining the mapping process, the researchers hope to improve the efficiency and accessibility of navigation tools, making them more practical for a variety of applications, including autonomous vehicles and mobile devices. The integration of dedicated hardware with the algorithm allows for rapid map generation, which could lead to faster and more reliable navigation solutions in real-world scenarios.

Research Computer science and technology Algorithms Artificial intelligence Machine learning Robotics
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Robotics needs a service framework.

RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.