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Website: https://uirobot.com
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Email: [email protected]
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Phone: +86 21-6118-2432
Chinese developer of custom motor and actuator products for robotics and automation, offering configurable shaft types, gearboxes, brakes, and lead screws with standard testing software. Provides both standard and custom solutions to robot manufacturers.
RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.
Researchers from MIT and EPFL have created a flapping robot capable of transitioning between water and air without legs. Weighing approximately 250 grams, the robot features a streamlined body, two flexible wings, and a controllable tail. It can flap its wings at frequencies of up to 6 Hz underwater and 5.2 to 11 Hz in the air, mimicking the behavior of diving birds, as detailed in a recent Science publication. This innovation is significant as it addresses the complex physical challenges of transitioning from water to air, a feat that most diving birds achieve with the aid of their legs. The robot's flexible wings reduce drag and allow for a higher flapping frequency underwater compared to rigid wings. This design not only enhances its swimming efficiency but also aligns with biological observations of diving birds, providing insights into their locomotion strategies. Looking ahead, the research team is exploring optimal wing configurations and has tested various sizes and stiffnesses. Future experiments will focus on the robot's ability to transition from water to air solely through wing flapping, a critical milestone that could reveal more about the mechanics of avian flight and inspire advancements in robotic design. No further timeline was disclosed at the time of publication.
leaderobot.com 1 hour ago Flapping Robots Aerial Robotics Aquatic Robotics Bio-inspired EngineeringIn a recent episode of The Robot Report Podcast, Andy Lonsberry, co-founder and CEO of Path Robotics, detailed the company's innovative approach to robotic welding. Based in Columbus, Ohio, Path Robotics utilizes AI to optimize the welding process by identifying torch paths and employing real-time vision guidance. This technology aims to streamline operations in manufacturing environments, addressing longstanding challenges in the industry. The significance of Path Robotics' advancements lies in their application of physical AI to enhance robotic systems. By integrating AI-driven solutions, the company is not only improving the efficiency of welding operations but also expanding the capabilities of robots in complex production settings. The deployment of Boston Dynamics' Spot robots for mobile welding applications in shipbuilding further exemplifies the potential of combining AI with robotics to tackle industry-specific challenges. Looking ahead, the focus will be on the continued integration of AI in robotic systems and the potential for further advancements in welding technology. No further timeline was disclosed at the time of publication, but the ongoing development in this area suggests a promising future for AI-enhanced manufacturing solutions.
RoboticsBusinessReview.com 12 hours ago Artificial Intelligence Assembly Cameras / Imaging / Vision Controllers Humanoids ManufacturingBessemer (Shanghai) Technology, founded by Assistant Professor Zhu Wenjun from Xi'an Jiaotong-Liverpool University, has successfully raised millions in angel funding from the Pudong AI Seed Fund. Established in 2025 with a registered capital of 2 million yuan, the company holds two patents and aims to optimize motor technology and establish mass production lines with the new funding. This funding is significant as it marks a shift in investment focus towards core components like joint motors, which have been underdeveloped in China. While many domestic motor technologies remain in the experimental phase, Bessemer is building a complete chain from electromagnetic simulation to standardized hardware, addressing the gap between laboratory innovations and industrial production. Looking ahead, Bessemer's product line includes the E series and S series motors, designed for humanoid robots and medical devices, which could disrupt the market by offering lighter, more efficient alternatives to traditional motors. No further timeline was disclosed at the time of publication for upcoming product launches or additional funding rounds.
leaderobot.com Jul 10, 2026 Motor Technology Robotics Angel Investment High-Tech StartupsXAG has launched the RM80, a 143 kg all-electric unmanned mower, at the Agricultural Robot Conference in Guangzhou, China. Designed for orchard management and land reclamation, the RM80 operates for up to 40 minutes per charge and can autonomously cover 0.33 to 0.53 hectares per hour. It features advanced navigation through the SuperX 5 Ultra control system and can also perform stubble removal for effective weed control. The introduction of the RM80 coincides with the unveiling of XAG's new X Series drone system, aimed at creating a fully autonomous farming workflow. This system includes the X Series drone, XA1 docking station, and LM1 chemical mixing unit, enhancing automation in tasks like charging and chemical refilling. The drone boasts improved computing power and perception capabilities, allowing it to survey up to 300 hectares in a single mission, while the docking station ensures precise automatic charging and refilling. XAG has not disclosed pricing details for the RM80 or the X Series system, with market packages expected to vary based on local dealer offerings. The company's strategy emphasizes integrating various robotic functions into a coordinated workflow, positioning its equipment as essential components of modern smart farming rather than standalone tools. No further timeline was disclosed at the time of publication.
FutureFarming Jul 10, 2026 Smart farming agricultural robots autonomous technology drone technology electric tractors robotic harvestingXSTO Mobility has unveiled the X12 all-terrain mobility robot, priced at $27,999, designed to assist wheelchair users in overcoming stairs and other obstacles. Weighing approximately 115 kg and capable of carrying up to 136 kg, the X12 features a hybrid wheel-track chassis that allows it to navigate stairs autonomously, with a climbing speed of 25 steps per minute and descending speed of 30 steps per minute. The robot utilizes LiDAR and AI algorithms for real-time terrain perception, enabling it to adjust its driving mode and power output dynamically. The introduction of the X12 is significant as it addresses mobility challenges faced by individuals with disabilities, particularly in environments lacking accessibility features. With the ability to climb slopes of up to 40 degrees and traverse gaps of 300 mm, the X12 offers a solution that goes beyond traditional mobility aids. XSTO Mobility, based in Zhongshan, Guangdong, has been developing embodied mobile robots for over a decade, and the X12 represents a substantial advancement in this field, emphasizing user independence and safety. Looking ahead, XSTO Mobility has reported that orders for the X12 are already booked until April 2026, indicating strong market demand. The robot is currently available in over 70 countries, and its innovative design has garnered multiple awards. No further timeline was disclosed at the time of publication regarding additional product releases or enhancements.
leaderobot.com Jul 10, 2026 Mobility Robots Assistive Technology AI Healthcare InnovationMIT and EPFL have developed the Flapping-wing Aerial-Aquatic Vehicle (FAAV), weighing just 250 grams. This innovative robot can navigate both air and water, achieving a cruising speed of 6.3 meters per second in the air and 1 meter per second underwater. Remarkably, it can take off from water using only its wings, without any additional propulsion systems. The significance of the FAAV lies in its ability to overcome the challenges of transitioning between air and water, which have historically hindered the development of amphibious robots. The wings of the FAAV passively deform underwater, allowing for efficient movement and reduced motor load. This design enables the robot to exploit the surface tension of water for takeoff, a feat that has been difficult for previous models reliant on complex propulsion mechanisms. Looking ahead, the research team aims to complete the full flight-dive-flight cycle, which is yet to be validated. The FAAV has already demonstrated its capability to breach the water's surface, marking a significant milestone in the evolution of cross-medium robotic systems. No further timeline was disclosed at the time of publication.
leaderobot.com Jul 10, 2026 Flapping Robots Aerial-Aquatic Vehicles Robotics Marine TechnologyOn July 8, ABB Robotics launched the Flexley Stack F712, an AI-driven autonomous forklift utilizing visual SLAM technology. This product completes ABB's lineup of autonomous mobile robots (AMRs), which now includes forklifts, tuggers, and transport vehicles. The F712 can handle various load types, with a maximum capacity of 2000 kg and a lifting height of 8.5 meters, achieving a top speed of 1.7 meters per second under full load. The significance of the F712 lies in its advanced navigation capabilities, which eliminate the need for traditional infrastructure like reflective markers or magnetic strips. With a positioning accuracy of ±10 mm, the F712 can autonomously navigate complex warehouse environments. It integrates seamlessly with the AMR Studio software, allowing for rapid deployment and fleet coordination, reducing debugging time by 20% compared to traditional systems. Looking ahead, the F712 is designed to support various internal logistics tasks, including warehousing and production line operations, and is compliant with the latest ISO and ANSI safety standards. No further timeline was disclosed at the time of publication, but the F712 represents a significant step towards more autonomous and capable robotic solutions in smart manufacturing environments.
leaderobot.com Jul 10, 2026 Autonomous Forklifts AI Robotics Warehouse Automation Visual SLAM Logistics TechnologyManufacturers typically calculate the return on investment (ROI) for automation by focusing on labor savings and increased throughput. However, a critical factor often overlooked is the cost associated with automation downtime, which can significantly impact overall profitability. This aspect of IT reliability is essential for determining the true financial benefits of robotic systems in smart manufacturing environments. Understanding the hidden costs of automation downtime is vital for manufacturers aiming to optimize their operations. When automation systems experience failures, the resulting downtime can negate the anticipated labor savings and throughput gains. This highlights the importance of investing in reliable IT infrastructure to ensure continuous operation and maximize the ROI of automation investments. Looking ahead, manufacturers should prioritize strategies that enhance IT reliability to mitigate downtime risks. No further timeline was disclosed at the time of publication, but ongoing assessments of automation systems will be crucial in refining ROI calculations and ensuring sustainable manufacturing practices in the future.
roboticstomorrow-Robotics Jul 10, 2026Engineers from MIT and EPFL have created a flapping-wing aerial-aquatic vehicle (FAAV) inspired by puffins. Weighing under 300 grams, the robot features a central fuselage, flexible wings, and a steerable tail. Field tests in Lake Geneva demonstrated its ability to swim and then take flight, showcasing its dual-medium capabilities. This innovation is significant for oceanography and marine biology, as it allows for cost-effective data collection from both air and water. The FAAV can fly at speeds of 6 meters per second and swim at 1 meter per second, providing a versatile tool for researchers. The design mimics the natural mechanics of birds, which maintain similar physical dynamics in both environments by adjusting their speed. Looking ahead, the team aims to refine the robot's ability to breach the water's surface, a challenging transition requiring a precise 70-degree pitch. No further timeline was disclosed at the time of publication, but the potential applications for environmental monitoring and research are substantial.
InterestingEngineering.com Jul 09, 2026 AI and RoboticsMIT Lincoln Laboratory has introduced the Tactical Optical Spherical Sensor for Interrogating Threats (TOSSIT), a baseball-sized device capable of detecting hazardous vapors and aerosols. Designed for military and first responder use, TOSSIT can be thrown, drone-dropped, or launched into areas of concern. The sensor utilizes an internal camera and a removable dye card to identify chemical threats, alerting users through an app or alarms when dangerous substances are detected. The significance of TOSSIT lies in its ability to address a critical gap in chemical detection capabilities. According to principal investigator Richard Kingsborough, this low-cost sensor option is essential for identifying toxic dust particles and other chemical threats that smaller deployed sensor systems typically overlook. This innovation is particularly relevant in contexts involving nerve agents, blister agents, and industrial chemical accidents, enhancing safety for military personnel and first responders. Looking ahead, TOSSIT is undergoing a transfer process to the U.S. military following extensive field testing. No further timeline was disclosed at the time of publication, but the deployment of such technology could significantly improve situational awareness and response capabilities in hazardous environments.
MITNews Jul 09, 2026 Research Sensors Public health Invention 3-D printing Mechanical engineeringRobbyant open-sources LingBot-VLA 2.0, a vision-language-action model trained on 60,000 hours of data for cross-morphology, whole-body robot control.
ByRobotToday Reporter Jul 08, 2026Discover the ultimate directory of global robotics events in 2026. Tailored briefings for engineers, investors, and founders on humanoid robots, AI, and industrial automation by RobotToday.
ByKelly Stone Jul 05, 2026Unitree wins CSRC approval for China’s first humanoid IPO, Korea unveils ₩312T AI investment, RoboCup 2026 opens in Incheon, and Paris launches Europe’s inaugural Physical AI summit.
ByKelly Stone Jul 04, 2026China controls 80% of humanoid robot shipments and crushes hardware costs. But is winning the body enough? A deep analysis of the US-China robot war beyond the EV analogy.
ByJJ Sun Jun 28, 2026This week in robotics: Agility Robotics $2.5B SPAC deal for first humanoid IPO, BMW Figure 03 logistics deployment, Morgan Stanley doubles China humanoid forecast, ON Semiconductor acquires Synaptics for $7B, Sony halts aibo in Japan. June 23–27, 2026.
ByRobotToday Reporter Jun 27, 2026Compare how Microsoft, Google, Oracle, Tesla Optimus, Figure AI and UBTECH finance their Capex. Supply chain risk, ROIC analysis and a 3-dimension investment framework included.
ByJJ Sun Jun 23, 2026A data-driven analysis comparing Boston Dynamics Atlas and Tesla Optimus supply chain strategies in 2026. Examines actuator costs, production ramp speeds, and how Boston Dynamics can avoid iRobot's bankruptcy by adopting a tiered supply chain approach. Includes component cost tables, risk heat maps, and strategic frameworks.
BySarah Bakery Jun 22, 2026This week in robotics: Japan commits $65B to physical AI, UBTECH’s U1 humanoid companion robot nears 5,000 pre-orders, XDOF raises $70M for robot foundation model infrastructure, and Waymo recalls ~3,900 robotaxis after construction-zone failures. June 15–19, 2026.
ByRobotToday Reporter Jun 20, 2026CIIF 2026 — the 26th China International Industry Fair — takes place October 12–16 at Shanghai NECC. 10,000+ exhibitors, 280,000 sqm, including the CIROS Robot Show covering industrial robots, AMR, cobots, and intelligent manufacturing.
ByRobotToday Reporter May 31, 2026This week in robotics: the Humanoids Summit debuts in Tokyo, China assigns every humanoid robot a digital ID, Figure signs a Catalyst Brands deployment deal, and Unitree heads to a June 1 IPO hearing. May 23–29, 2026.
ByRobotToday Reporter May 30, 2026
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