A single destination for timely, editor-curated robotics news from around the world.
Weiyi Technology, a prominent company specializing in core motion components for embodied intelligence, has secured a multi-million dollar Pre-A funding round. The investment was led by Xiaomiao Langcheng and Shanghai State-Owned Assets, highlighting the growing confidence in the company's technological innovations and its potential impact on the robotics industry. This funding round, which underscores Weiyi Technology's advancements, positions the company for further growth and development within the competitive landscape of robotics.
leaderobot.com By Leaderobot Apr 09, 2026 Robotics Motion Components Investment Embodied Intelligence
In the evolving landscape of modern manufacturing, JAKA is redefining human-machine interaction (HMI) by integrating industrial robot arms into cohesive systems that enhance operational efficiency. This approach emphasizes that robots should not function as isolated units but as integral components of a larger framework that includes mechanical structures, control logic, and software interfaces. By focusing on mechanical integration, JAKA ensures that robotic arms interact safely and accurately with operators, facilitating intuitive engagement and stable production behaviors. The design of robotic arms at JAKA prioritizes harmonized joints and controlled motion, which allows for smooth feedback and precise movements. This is particularly beneficial in packaging applications, where high repeatability minimizes errors and enhances operational clarity. Furthermore, JAKA's control systems are engineered to ensure that robotic arms respond predictably to user inputs, whether in automated or manual modes, thus improving the overall quality of HMI. The integration of these systems not only streamlines workflows but also reduces management overhead by providing clear and actionable feedback. This results in consistent output rates and decreased waste in production processes. JAKA's holistic approach to robotic systems fosters a manufacturing environment that is adaptable to real operational needs, ultimately leading to more efficient and transparent human interactions in tasks such as packing and spraying.
jaka.com By JAKA Apr 09, 2026
THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the development of its products, which include Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. The company serves a global clientele, providing essential components for various industries. In addition to its core offerings, THK also specializes in mechatronics products, automobile parts, and seismic isolation systems. This strategic focus on diverse product lines aims to meet the evolving needs of customers worldwide and enhance operational efficiency across multiple sectors. As of October 2023, THK continues to leverage advanced manufacturing techniques to ensure the reliability and performance of its products, reinforcing its position as a key player in the mechanical components market.
thk.com By THK Jul 25, 2025 THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
Planetary roller screws are increasingly being recognized as crucial components in the development of advanced humanoid robots, thanks to their superior load capacity and durability compared to traditional ball screws. Leading companies in the robotics sector, including Tesla and Figure AI, are integrating these high-performance screws into their designs, contributing to significant growth in the market. However, the widespread adoption of planetary roller screws is hindered by their high production costs and the complexity involved in their manufacturing processes. As the demand for more sophisticated robotic systems rises, addressing these challenges will be essential for further advancements in the field.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Apr 11, 2025 1X-technologies Tesla Figure Agility Robotics
A research team from the National University of Singapore has introduced a groundbreaking soft force sensor called ME-SOFS, which converts touch into fluid-driven motion without any electronic components. This innovative sensor features a 3D-printed soft porous structure with a central pillar connected to five fluid-filled chambers. When pressure is applied, the pillar tilts, compressing the corresponding chamber and driving fluid to actuators, enabling the detection of forces in multiple directions. The significance of ME-SOFS lies in its ability to operate without electronic interference, making it ideal for applications in medical training and elderly care. The sensor can generate readable signals through integrated magnets and coils, allowing it to measure force without external power. This technology has been successfully demonstrated in a soft glove that detects grip strength and predicts object weight, as well as in a tactile feedback system that enables operators to control robotic arms through force feedback. Looking ahead, the ME-SOFS sensor demonstrates robust performance under extreme conditions, such as high temperatures and underwater pressures. Its unique design allows it to function effectively in various environments, making it a valuable tool for soft robotics that require safe interaction with humans. No further timeline was disclosed at the time of publication.
leaderobot.com By Leaderobot Jul 13, 2026 Soft Robotics Fluid Sensors Mechanical Systems Robotics Technology
Harmonic Drive has unveiled its latest innovation, the LPA 20 integrated servo actuator, enhancing its reputation as a leading supplier of motion control components for surgical robotics. This new actuator is designed to provide exceptional precision and a compact form factor, addressing significant challenges faced by original equipment manufacturers (OEMs) in the medical field. The launch underscores Harmonic Drive's commitment to advancing technology in surgical applications, ensuring that OEMs can meet the growing demands for efficiency and reliability in robotic systems.
RoboticsTomorrow.com Jul 06, 2026
Engineers focusing on servo performance often prioritize the motor, drive, and gearbox, but recent insights highlight the critical role of couplings in these systems. Couplings serve as the link between a servo motor's shaft and the gearbox, directly influencing motion accuracy and the overall longevity of the system. This understanding underscores the importance of coupling stiffness and the ability to compensate for misalignment, which can significantly impact performance. The findings emphasize that attention to these components is essential for optimizing servo functionality and ensuring reliable operation in various applications.
RoboticsBusinessReview.com By Sponsored Content May 08, 2026 Sponsored Content GAM
In the modern industrial landscape, while robotics often garners significant attention, a crucial technological realm supporting automation lines, collaborative robots, and smart factories is industrial automation and pneumatics. Key components such as actuators, valves, motion systems, fluid control, servo drives, electrical automation, and connected platforms play an essential role in enhancing operational efficiency. The article highlights the competitive landscape among leading companies in this sector, specifically Bosch Rexroth, Festo, and SMC, examining their contributions and innovations in automation and pneumatics. This analysis underscores the importance of these technologies in driving industrial advancements.
RobotMagazine By Christophe Carl Louis May 07, 2026 À la une IA Industrie Robotique automatisation électrique automatisation industrielle.
In the rapidly evolving field of medical device manufacturing, JAKA is at the forefront of integrating assembler robots into production lines to enhance precision and maintain strict sterilization standards. These advanced 6-axis robot arms are designed to navigate the complexities of assembling miniature components and delicate materials, ensuring stable motion control and predictable positioning throughout long operating cycles. By minimizing human contact in sensitive environments, JAKA's automation solutions help reduce contamination risks and support adherence to sterilization protocols. The implementation of these robots allows manufacturers to adapt to cleanroom layouts while remaining flexible enough to accommodate product changes. JAKA's lightweight robotic structures can be quickly deployed and adjusted, making them ideal for small-batch and multi-variety manufacturing, which is prevalent in the medical sector. This adaptability not only prevents workpiece loss but also enhances productivity without compromising quality. As the demand for precision and efficiency in medical device assembly continues to grow, JAKA's focus on practical automation solutions positions them as a key player in the industry. Their commitment to developing reliable motion control and adaptive assembly logic ensures that manufacturers can achieve consistent performance while navigating the challenges of regulated production environments. By leveraging the capabilities of assembler robots, JAKA is paving the way for more controlled and efficient medical device manufacturing processes.
jaka.com By JAKA Mar 18, 2026
IEEE Spectrum robotics has released its weekly roundup of notable robotics videos and a calendar of upcoming events, including the International Conference on Robotics and Automation (ICRA) scheduled for June 1-5, 2026, in Vienna. This week's highlights feature advancements in biomimetic design, showcasing a printed hand that integrates soft and rigid components with artificial muscles, enhancing our understanding of natural kinematic structures. Boston Dynamics product managers reflect on classic robots, including LittleDog, which contributed to legged locomotion research over a decade ago. Additionally, DRAGON Lab has introduced a new trajectory planning method for floating-based articulated robots, facilitating exploration in complex environments. Their OmniPlanner tool has been tested extensively across various terrains, including underground mines and forests. The FZI Research Center, in collaboration with ETH Zurich and other institutions, has made strides in preparing for lunar missions by testing cooperative autonomous multirobot teams outdoors. Meanwhile, advancements in humanoid robotics are being discussed, with Kamel Saidi from NIST emphasizing the importance of performance standards for broader adoption. In academia, Junyao Shi from UPenn's GRASP lab will address the challenges of building general-purpose robots, focusing on how human data and foundation models can bridge existing gaps in robotics. This ongoing exploration of robotics technology underscores the field's rapid evolution and its potential impact on various sectors.
Spectrum.ieee.orgAutomaton By Evan Ackerman Mar 06, 2026 Humanoid-robots Video-friday Underwater-robots Bipedal-robots Robot-videosDoosan Robotics has officially opened the Doosan Robotics Innovation Center on October 15, a state-of-the-art facility aimed at enhancing collaboration in robot research and development. Situated in Gumi-dong, Bundang-gu, Seongnam, Gyeonggi Province, the center spans approximately 6,600 square meters, making it the largest robotics research facility in South Korea. The center will house around 80 researchers, representing 40% of the company's workforce, who will work together to innovate intelligent robot solutions and humanoid technologies. This facility consolidates essential R&D resources, focusing on the development of core robot components, AI-based motion research, and quality testing. The center features rigorous testing areas where robots undergo extensive trials, including power cycling and movement tests, as well as temperature and humidity chambers to ensure reliability in extreme conditions. Specialized workspaces are also equipped to prioritize worker safety during tasks like sanding and welding. In a strategic move to enhance AI and software development, Doosan Robotics has appointed Oh Chang-hoon, former CTO of Toss Securities, as Executive Vice President. Oh's expertise in software architecture will support the advancement of intelligent robot solutions. CEO Keven Kim emphasized the company's commitment to becoming a leader in intelligent robotics, following their AI innovation declaration in April. The Innovation Center is expected to accelerate the development of new technologies, setting new industry standards in intelligent automation.
doosanrobotics.com By Doosan Robotics Sep 15, 2025
On July 10, Xinjie Electric signed an agreement to invest 5.08 billion yuan in Wuxi Binhu for a project focused on core components for intelligent and high-end equipment. This project aims to mass-produce upstream core components, including servo systems, frameless torque motors, and high-precision encoders, addressing critical gaps in the domestic humanoid robot industry chain. The significance of this investment lies in the fact that core components account for over 70% of the hardware cost structure in humanoid robots, with domestic supply heavily reliant on overseas manufacturers. Xinjie Electric's project will enhance local production capabilities, reduce reliance on imports, and stabilize the supply chain, which is crucial for the downstream assembly manufacturers. Looking ahead, Xinjie Electric plans to advance the project in two phases, with the first phase focusing on expanding production capacity for servo systems and controllers. No further timeline was disclosed at the time of publication, but the company’s established expertise in motion control positions it well for success in the humanoid robot components market.
leaderobot.com By Leaderobot 6 hours ago Humanoid Robots Core Components Industrial Automation AI Robotics Innovation
ETCO Incorporated has unveiled a new range of standard and custom electrical connectors and terminals designed specifically for automation systems and robotics. These products are engineered to endure intense operations, constant motion, and vibration, making them suitable for demanding applications. The introduction of these connectors and terminals is significant as they address the growing need for reliable electrical components in automation and robotics. With the increasing complexity of automated systems, the durability and performance of electrical connections are crucial for operational efficiency and safety. Looking ahead, industry stakeholders should monitor the adoption of ETCO's new products in various applications. The effectiveness of these connectors and terminals in real-world scenarios will be key to their success in the market. No further timeline was disclosed at the time of publication.
RoboticsTomorrow.com Jul 14, 2026
Rollon, a leader in linear motion systems, has introduced the HVC-MG and H1C-MG integrated magnetic telescopic rails. These rails, designed for high-load applications, incorporate magnets into the rail structure to improve control and reduce effort during maintenance tasks. The new technology was unveiled this week and aims to enhance the efficiency and safety of railway maintenance operations by allowing engineers to easily pull out heavy battery compartments weighing hundreds of kilograms. The significance of this innovation lies in its ability to provide a seamless operation under heavy loads, addressing the challenges faced by maintenance personnel in the railway sector. The integrated magnets facilitate a sequential opening of the rail components, which minimizes simultaneous stress and enhances load distribution. This results in smoother operation, reduced manual effort, and extended rail lifespan, making it particularly suitable for the demanding environments of high-speed rail and subway systems. Looking ahead, Rollon plans to expand its magnetic control sequential motion technology across more product lines. The HVC and H1C series rails offer full extension and super extension options, maximizing accessibility while minimizing space usage. No further timeline was disclosed at the time of publication for additional product releases or enhancements.
leaderobot.com By Leaderobot Jul 10, 2026 Railway Maintenance Linear Motion Systems Heavy Equipment Automation Technology
Researchers at the University of Gothenburg have developed a groundbreaking robot inspired by the movement of an inchworm, which operates without any rigid components. This innovative design allows the robot to mimic the flexing motion of muscles, making it suitable for various applications, including inspecting sewer pipes and exploring Mars. The findings of this research have been shared on the arXiv preprint server, highlighting the potential of soft robotics in diverse environments. The project aims to enhance exploration and inspection capabilities in challenging and confined spaces, showcasing the versatility and adaptability of this new robotic technology.
TechXplore:Robotics Jun 24, 2026 Robotics
In the evolving landscape of modern manufacturing, robotic arms and collaborative robots have emerged as essential tools, enhancing efficiency and precision while minimizing human error. JAKA, a leading provider of collaborative robots, emphasizes the importance of scientific calibration and regular maintenance to ensure the stable operation of these machines, which directly impacts production quality and safety. To maintain optimal performance, JAKA outlines best practices for calibrating and servicing robotic arms, particularly its JAKA Zu12 model. Regular kinematic calibration is crucial for correcting geometric errors and ensuring accurate motion trajectories, which is vital for collaborative robots that interact closely with humans. The JAKA Zu12’s integrated design facilitates efficient calibration during assembly, maximizing its reach and payload capabilities. Daily and periodic maintenance is also critical in reducing failure rates. Daily tasks include cleaning, checking cable connections, and ensuring joint operation, while periodic maintenance focuses on lubricating joints, inspecting wear on components, and updating software. For collaborative robots like the JAKA Zu12, regular safety checks are essential to ensure safe human-robot interactions. JAKA also advocates for scenario-based maintenance tailored to specific application needs, such as handling and palletizing tasks, to enhance processing precision and operational reliability. By implementing systematic calibration and maintenance strategies, JAKA aims to help enterprises optimize the performance of their robotic arms, ultimately reducing costs and boosting production efficiency in automated manufacturing environments.
jaka.com By JAKA May 28, 2026
A recent report on embodied intelligence and humanoid robotics, set to be released in 2026, offers an in-depth examination of the industry's landscape, underscoring China's leading role in both production and technological advancements. The report notes a significant transition in the field, moving beyond basic motion capabilities to focus on delivering dependable performance in real-world scenarios. Additionally, it highlights ongoing challenges related to essential components and sensor technologies that must be addressed to further advance the industry.
leaderobot.com By Leaderobot May 18, 2026 Humanoid Robots Embodied Intelligence Robotics Industry AI Technology
As industrial manufacturing evolves, flexibility and collaboration are becoming as crucial as efficiency, particularly in the role of industrial robot arms. JAKA is at the forefront of this transition, leveraging artificial intelligence to enable robots to work safely and intuitively alongside human operators. This shift, observed in real-time production environments, is driven by the need for adaptive systems that can handle frequent product changes and varying batch sizes without compromising on quality. AI technology enhances the capabilities of industrial robot arms, allowing them to interpret their surroundings and perform tasks consistently. With advancements in vision systems, force feedback, and adaptive control, these robots can manage variations in components without the need for constant reprogramming. JAKA's AI-based motion planning ensures accuracy even with slight differences in part shapes or positions, making these systems particularly effective in assembly scenarios. The collaborative approach redefines the deployment of industrial robots, moving them from isolated operations to working alongside humans on the production floor. JAKA's Zu3 model exemplifies this balance, performing repetitive and precision-intensive tasks while allowing human operators to focus on more complex decision-making roles. Its lightweight design facilitates quick redeployment, making it ideal for small-batch, diverse production needs. Looking forward, JAKA envisions a future where industrial robot arms are seamlessly integrated with human expertise, fostering resilience and responsiveness in manufacturing. This collaborative model not only enhances productivity but also supports sustainable growth by adapting to real-world production challenges.
jaka.com By JAKA Apr 08, 2026
As industrial automation increasingly shapes modern manufacturing, companies are seeking robotic arms that can effectively adapt to real production environments. JAKA, a prominent player in the robotics sector, emphasizes the importance of understanding how robotic arms function on the factory floor rather than merely in controlled testing scenarios. The demand for flexible and compact robotic systems is rising, driven by the need for quick deployment and adaptability to changing production requirements across various industries, including electronics and automotive assembly. JAKA distinguishes itself by focusing on collaborative robotic arms that facilitate close interaction with human workers and existing production systems. By developing systems that balance precision, payload, and safety without necessitating extensive infrastructure changes, JAKA enables the integration of robotic arms into compact workspaces and mixed-production lines. Their design philosophy prioritizes standardized interfaces and modularity, allowing seamless compatibility with vision systems and other automation components. The design and support of robotic arms throughout their lifecycle are crucial factors in determining a manufacturer’s reliability. JAKA’s lightweight structures, consistent motion control, and user-friendly programming interfaces reduce deployment time and operational barriers, making their systems suitable for a variety of tasks such as assembly, inspection, packaging, and testing. By emphasizing system compatibility and long-term usability, JAKA positions itself as a trusted supplier, committed to supporting customers through integration and future automation expansions. Ultimately, the effectiveness of robotic arms in real-world applications hinges on their ability to adapt and support sustainable automation strategies.
jaka.com By JAKA Apr 03, 2026
As modern production environments evolve towards greater automation, companies are increasingly faced with the challenge of integrating robotic solutions into compact spaces. JAKA, a leader in intelligent automation, emphasizes the importance of selecting the right articulated robot arm to ensure reliability and efficiency in these confined settings. The demand for such technology is driven by the need for operational flexibility and safety, particularly when collaborative robots work in close proximity to human operators. Key considerations include the robot's physical footprint and range of motion, which must be optimized to minimize interference with surrounding equipment. JAKA's experience highlights that a well-designed joint layout and axis coordination can enhance maneuverability in narrow workspaces, allowing for smoother operation even during production line adjustments. Safety features are paramount, as collaborative robots must respond predictably to human interaction while maintaining precision. JAKA's S5 model incorporates advanced sensing capabilities and protection mechanisms, enabling rapid adaptive control to accommodate frequent task changes without extensive reconfiguration. Furthermore, the efficiency of deployment and long-term operational value are critical factors. With limited installation flexibility in tight spaces, JAKA's articulated robot arms are designed for quick setup and integration into existing workflows, reducing reliance on complex external components. In summary, JAKA advocates for a holistic approach to selecting articulated robot arms, balancing mechanical design, safety, and operational efficiency to meet the evolving demands of modern manufacturing within compact environments.
jaka.com By JAKA Apr 03, 2026
In the evolving landscape of modern manufacturing, JAKA is redefining the criteria for selecting industrial robot arms, emphasizing the importance of precision, flexibility, and safety over mere automation speed. The company focuses on developing robotic systems that ensure engineering reliability and practical usability, which are crucial for meeting the dynamic demands of production environments. Key features of high-performance robotic arms include the ability to maintain stable processing precision, which directly impacts product quality and defect control. JAKA’s design prioritizes controlled motion, allowing manufacturers to achieve consistent results and reduce defect rates, thereby enhancing overall process reliability with minimal manual intervention. Additionally, the adaptability of robotic arms is vital for responding to changing production needs. JAKA’s Pro5 model offers reprogrammable functions that enable quick adjustments to workflows, facilitating efficient product modifications without the need for extensive equipment investment. This flexibility is particularly beneficial in mixed-production settings where rapid changes are commonplace. Safety is another critical aspect of JAKA’s robotic arm components. By automating hazardous or repetitive tasks, these systems minimize direct operator contact with potentially dangerous equipment, thereby reducing the risk of accidents on the production floor. By integrating these essential features—precision, reprogrammability, and safety—JAKA aims to support manufacturers in achieving reliable production outcomes and fostering safer, more adaptable manufacturing processes. This approach not only enhances quality control but also enables companies to respond effectively to market changes over time.
jaka.com By JAKA Mar 17, 2026
JAKA, a specialist in collaborative robotics, has emphasized the critical role of six-axis robot arms in precision automation. These advanced robotic arms, designed to mimic the full range of motion of a human arm, offer unparalleled dexterity and flexibility necessary for complex tasks such as assembly and machine tending. By utilizing six points of rotation, these robots can position tools at precise angles, ensuring accuracy in operations like component insertion and sealant application. The company highlights that the efficiency of six-axis robots significantly enhances processes in machine tending and logistics. For instance, these robots can seamlessly handle tasks such as retrieving raw parts from conveyors, operating machinery, and managing finished components, thereby maximizing equipment uptime. Their compact design and user-friendly programming capabilities allow for quick deployment across multiple production lines, effectively addressing manual labor challenges. Moreover, JAKA prioritizes accessibility in automation, offering intuitive programming tools that enable users to leverage the full capabilities of the six-axis design without requiring extensive coding knowledge. This approach not only facilitates the replacement of manual labor but also allows teams to focus on higher-value tasks, making advanced precision automation more attainable. In summary, JAKA's six-axis robot arms are essential for precision users seeking to enhance production efficiency and product quality, providing the necessary dexterity to transform intricate operations into reliable automated processes.
jaka.com By JAKA Feb 26, 2026
JAKA, a leader in collaborative robotics, is showcasing its diverse range of cobot robot arms tailored to meet varying payload capacities essential for different industrial applications. The company emphasizes that selecting the right robot hinges on matching its specifications to the intended tasks, particularly focusing on payload capacity, which determines the weight a robot can handle effectively. The series includes light payload cobots designed for precision tasks, such as polishing delicate components, where fine motion control is crucial. These models excel in applications requiring accuracy, such as intricate assembly and detailed inspections. For more versatile operations, JAKA offers medium payload solutions that balance strength and agility, suitable for general industrial tasks like assembly, packaging, and quality testing. These cobots can easily adapt to various production line stages, enhancing efficiency without necessitating multiple specialized robots. Additionally, JAKA provides higher payload models for demanding handling tasks, capable of managing heavier items and substantial tooling. These robots are engineered for stability and performance, making them ideal for machine tending, palletizing, and automated loading, all while adhering to collaborative safety standards. By offering a comprehensive portfolio that spans from precision-focused to robust handling capabilities, JAKA aims to support businesses in integrating collaborative automation solutions that align with their specific operational requirements, ensuring reliability and long-term mechanical integrity on the shop floor.
jaka.com By JAKA Jan 13, 2026
The German motion technology leader has inaugurated a new 900 square meter facility at Nanyang Technological University, reinforcing its commitment to the humanoid robotics sector. This strategic move aims to position the company as both a significant user and a key supplier of components in this rapidly evolving field. The facility is expected to enhance research and development efforts, fostering innovation and collaboration within the robotics community. By establishing a presence at a prominent educational institution, the company seeks to leverage academic expertise and resources to advance its technological capabilities and product offerings.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Dec 01, 2025 Schaeffler Singapore
THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the production of essential technologies. The company specializes in the development and manufacturing of a wide range of products, including Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. With a global client base, THK also focuses on mechatronics products, automotive parts, and seismic isolation systems. This strategic expansion aims to meet the growing demand for advanced mechanical solutions across various industries. By leveraging cutting-edge technology and engineering expertise, THK continues to enhance its product offerings, ensuring they remain at the forefront of the mechanical components market.
thk.com By THK Jul 25, 2025 THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the production of various products, including Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. The company serves a global clientele, providing essential components for a wide range of industries. In addition to its core mechanical offerings, THK also specializes in the development and distribution of mechatronics products, automobile parts, and advanced seismic isolation systems. This strategic focus on diverse product lines aims to enhance operational efficiency and safety in various applications, reflecting THK's dedication to meeting the evolving needs of its customers worldwide.
thk.com By THK Jul 25, 2025 THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and global distribution. The company specializes in products such as Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators, catering to a diverse clientele worldwide. In addition to these offerings, THK also develops and distributes a range of mechatronics products, automobile parts, and seismic isolation systems. This strategic focus on advanced manufacturing and product diversity positions THK as a key player in the mechanical engineering sector, responding to the evolving needs of industries around the globe.
thk.com By THK Apr 18, 2025 THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
THK, a leading manufacturer of mechanical components, has announced its ongoing commitment to innovation and quality in the development of various products, including Linear Motion systems, LM Guides, Ball Splines, Ball Screws, and electric actuators. Serving clients globally, the company also specializes in mechatronics products, automobile parts, and seismic isolation systems. With a focus on meeting the diverse needs of its customers, THK continues to enhance its product offerings and expand its market reach as of October 2023.
thk.com By THK Apr 18, 2025 THK Linear Motion LM Guides Linear bearing Linear Guide Ball Splines
Unitree Robotics, a company recognized for its innovative humanoid and quadruped robots, has unveiled its latest creation, the Dex5, a sophisticated five-fingered robotic hand. This new device boasts 20 degrees of freedom and 94 highly sensitive touch points, showcasing its remarkable fine manipulation capabilities in a promotional video. The introduction of the Dex5 marks a significant step for Unitree as it broadens its focus into advanced robotics components, aiming to enhance the functionality and versatility of robotic systems.
HumanoidsDaily By [email protected] (Humanoids Daily Staff) Apr 01, 2025 video G1 Unitree Robotics dex5
XAG 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 By René Groeneveld Jul 10, 2026 Smart farming agricultural robots autonomous technology drone technology electric tractors robotic harvesting
Shenzhen-based Chengwu Robotics has successfully completed its angel round of financing, backed by Taiwan's leading industrial automation and intelligent robotics firm, Chuan Technology, with Huajun Capital serving as the exclusive financial advisor. Founded in 2025, Chengwu Robotics focuses on the development of embodied intelligence technologies and product solutions for industrial applications, leveraging its integrated capabilities in hardware and software development, data collection, model training, and scene deployment. The company, led by founder Huang Jinlong, who has over a decade of experience in robotics R&D, aims to address the customization needs of non-standard industrial scenarios. Since its inception, Chengwu has delivered over ten industrial projects, generating over 20 million yuan in revenue by 2025 and serving major manufacturers, including Foxconn. Chengwu Robotics is also advancing its model development, with a focus on the Vision-Language-Action (VLA) model, which aims to enhance 3D perception and operational precision in complex environments. To address data collection challenges, the company has developed its own Egocentric-UMI data collection device and Bybot-TeleOp remote operation system, significantly reducing training and deployment times. The company is simultaneously developing a prototype upper-body robot equipped with advanced components to support its model training and industrial applications. Chengwu Robotics emphasizes its comprehensive capabilities and real-world delivery experience, positioning itself to create commercially viable solutions that meet client needs in various industrial contexts.
36kr.com May 30, 2026
Chinese tech companies are rapidly advancing the integration of artificial intelligence into robotics, marking a significant shift in the generative AI landscape from digital chatbots to physical autonomous systems. Last week, Alibaba Group Holding introduced its Qwen3.7-Max model, which boasts innovative “tool-calling” capabilities. This feature enables the AI to function as a digital brain, facilitating the control of robots by coordinating various physical actions, including navigation and interaction with external software and hardware components. This development reflects a broader trend within the tech industry to enhance robotic functionalities through advanced AI, aiming to improve efficiency and expand the applications of autonomous systems in various sectors.
SCMPTech By Minxiao Chang May 28, 2026
Yale University and Rutgers University have collaborated to create a groundbreaking open-source tensegrity robot, which is both lightweight and impact-resistant. This innovative robot is designed to autonomously navigate diverse terrains, showcasing its versatility and resilience. The project, which emphasizes modular components and advanced control systems, aims to enhance the robot's adaptability in various environments. This development represents a significant advancement in robotics, potentially paving the way for future applications in fields such as search and rescue, exploration, and environmental monitoring.
leaderobot.com By Leaderobot May 20, 2026 Tensegrity Robots Robotics Research Autonomous Navigation Modular Robotics
The consumer electronics industry is increasingly adopting specialized assembly robots to address the challenges posed by rapid product life cycles and the need for precision in manufacturing. As smartphones, wearables, and home gadgets evolve, traditional manual assembly methods struggle to keep up with the demand for high-quality production. This shift is driven by the need for accuracy in handling densely packed components, which require sub-millimeter precision and are sensitive to electrostatic discharge. To adapt to frequent design changes and seasonal updates, manufacturers are turning to flexible automation solutions. These advanced robots can be quickly reprogrammed and equipped with modular end-effectors, enabling them to perform various tasks across different product lines. The integration of 2D and 3D vision systems enhances quality control, allowing robots to make real-time adjustments to ensure precise assembly. JAKA, a leader in robotics technology, has developed the JAKA A12L, designed specifically for the electronics sector. This robot offers a long reach and high payload capacity, making it suitable for large-format assembly. With an impressive repeatability of ±0.03mm, JAKA's solutions meet the stringent requirements of consumer electronics manufacturing. The company emphasizes ease of integration and safety, providing an open software ecosystem for seamless communication with vision sensors and factory systems, along with user-friendly wireless control through the JAKA App. This innovation positions manufacturers to turn production challenges into competitive advantages.
jaka.com By JAKA May 12, 2026
Chef Robotics has announced an expansion into component assembly for consumer packaged goods (CPG) manufacturing, enabling automation of secondary packaging and kitting processes. This development, revealed on May 11, 2026, allows Chef robots to efficiently handle a variety of items, including sauce sachets, seasoning packets, and even non-food inserts like cutlery kits and instruction cards. Historically, CPG assembly lines have relied heavily on manual labor due to the challenges posed by lightweight and deformable items. Chef Robotics aims to address this issue by utilizing AI-powered computer vision, which enables robots to assess and manipulate items in real time, ensuring precise placement without damage. The technology adapts to the variability of items in unstructured bins, eliminating the need for pre-sorting. The new assembly application features three key capabilities: detecting and reorienting items mid-pick for accurate placement, picking and placing multiple components simultaneously, and ensuring correct item allocation in multi-compartment products. This innovation promises higher throughput, reduced labor dependency, and consistent item placement across production shifts. Chef's CPG assembly application is available in the US, Canada, the UK, and Germany, and operates on existing robotic hardware and software, allowing for seamless integration into current manufacturing setups. The service is offered under Chef's robotics-as-a-service (RaaS) pricing model, further solidifying the company's position as a leader in AI-driven food robotics solutions.
RoboticsTomorrow.com May 11, 2026
In response to the evolving demands of modern manufacturing, JAKA has introduced advanced assembly robots designed specifically for high-mix, low-volume production environments. This shift, which contrasts sharply with traditional mass production, requires automation systems capable of quickly adapting to various products and tasks. JAKA's S12 robot, featuring a 12kg payload and a 1327mm working radius, exemplifies this adaptability, allowing manufacturers to respond efficiently to changing market needs without incurring excessive operational costs. The S12 robot is engineered for ease of programming, utilizing intuitive graphical interfaces that enable technicians to reprogram it quickly, reducing downtime significantly. Its design incorporates interchangeable end-effectors, allowing it to handle diverse product types, from flat panels to engine components, with precision. Additionally, the robot's advanced safety features, including force-torque sensors, facilitate a collaborative workspace where humans and machines can operate safely in proximity. With a repeatability of ±0.03 mm, the S12 ensures high-quality assembly across various tasks, maintaining accuracy even after multiple re-deployments. Its integration with 2D and 3D vision systems allows it to manage unsorted parts effectively, a crucial capability for high-mix production lines. JAKA's commitment to flexibility is further demonstrated through its wireless software ecosystem, enabling remote management via the JAKA App. By investing in JAKA's technology, manufacturers can enhance their production agility and maintain competitiveness in a rapidly changing market.
jaka.com By JAKA May 11, 2026
Researchers at Georgia Tech have developed innovative swarms of tiny robotic particles that operate without any electronic components, such as sensors or processors. Led by Bolei Deng, an assistant professor in the Daniel Guggenheim School of Aerospace Engineering, and Ph.D. student Xinyi Yang, the team has drawn inspiration from the simplicity of LEGO bricks, which fit together seamlessly without the need for complex technology. This groundbreaking work showcases how these robotic particles can latch, release, and reorganize autonomously, opening new possibilities for applications in various fields. The research highlights a novel approach to robotics that emphasizes mechanical interaction over electronic intelligence, potentially leading to more resilient and adaptable systems.
TechXplore:Robotics Apr 01, 2026 Robotics
In the realm of modern manufacturing, JAKA is addressing a common challenge in the deburring process, which often serves as a bottleneck due to its repetitive nature and the need for high precision. The company advocates for the use of robotic deburring systems, particularly emphasizing the advantages of their flexible robot arms. By integrating sophisticated software strategies, such as adaptive path planning, JAKA enhances the efficiency of these robotic systems. The flexible design of JAKA's robot arms allows them to adjust their approach to maintain optimal tool contact, accommodating variations in part tolerances without manual reprogramming. This capability ensures a consistent finish across different components, significantly reducing rework rates. Additionally, the integration of real-time force feedback enables the robotic system to maintain consistent pressure during material removal, adapting its speed and position based on the interaction with the workpiece. To further streamline operations, JAKA employs parametric models that allow for quick setup of new deburring paths based on 3D CAD models. This method reduces the time required for programming and enhances the adaptability of the robotic system in high-mix production environments. By focusing on dynamic path planning, real-time force control, and model-based programming, JAKA is revolutionizing the robotic deburring process, making it faster, more reliable, and easier to manage amidst varying production demands.
jaka.com By JAKA Mar 06, 2026
In the ongoing debate over robotic efficiency in assembly and packaging lines, JAKA highlights the critical factors influencing speed in pick and place applications. The comparison between SCARA and 6-axis robotic arms reveals that speed is not solely defined by peak velocity but is also affected by travel distance, directional changes, and the complexity of movement paths. SCARA robots excel in tasks requiring rapid, point-to-point movements within a single horizontal plane, making them ideal for high-frequency transfers, such as moving components from a conveyor to a fixture. However, their performance can decline when tasks involve vertical or complex movements. Conversely, 6-axis robotic arms, with their articulated joints, offer enhanced flexibility for navigating intricate three-dimensional paths. This capability allows them to perform complex maneuvers—such as retrieving parts from tilted trays and placing them at various angles—more efficiently than SCARA models, despite potentially slower joint speeds. Moreover, the workspace coverage plays a significant role in overall system throughput. SCARA robots typically operate within a cylindrical workspace, which may necessitate multiple units for larger areas. In contrast, 6-axis robots can cover broader volumes from a single mount point, reducing the need for additional robots or complex transfer systems and ultimately improving operational speed by minimizing idle time. In conclusion, the choice between SCARA and 6-axis robotic arms should be guided by the specific requirements of the task, as each design offers distinct advantages in speed and efficiency based on the nature of the application.
jaka.com By JAKA Jan 07, 2026
JAKA is poised to revolutionize the capabilities of the six-axis robot arm through advancements in mechanical design and artificial intelligence. Over the coming years, the company aims to enhance the dexterity and intelligence of these versatile robots, enabling them to perform intricate tasks in complex industrial environments. The next generation of jointed arm robots will feature improved joint mechanics and integrated force-torque sensing, allowing for smoother and more precise movements. This hyper-dexterity will enable the robots to delicately handle fragile components and adapt in real-time to varying resistance during assembly tasks. AI integration will further transform these robots, granting them the ability to perceive and adapt to unstructured environments. By utilizing machine vision and learning algorithms, the robots can identify and adjust to inconsistencies in part placement, dynamically managing parameters such as grip force and insertion angles based on sensory feedback. This adaptability will make the robots suitable for small-batch, high-mix production, shifting them from rigid tools to flexible systems. As these technologies evolve, the deployment of six-axis robot arms will become more intuitive, reducing the need for extensive programming and allowing for quicker task learning through demonstration. This streamlined approach will enable manufacturers to redeploy robotic assets more frequently, enhancing the agility of automation in modern manufacturing. JAKA's commitment to integrating advanced mechanical design with AI aims to make sophisticated automation more accessible and effective, addressing the diverse challenges faced by today's industries.
jaka.com By JAKA Jan 06, 2026
The manufacturing industry is undergoing significant transformation as companies strive to increase production efficiency, minimize waste, and adapt to market demands while keeping costs manageable. Central to this evolution is the rise of industrial automation, supported by various suppliers that play a crucial role behind the scenes. One such emerging player in this sector is JLCMC, an online store that is gaining recognition for its contributions to the automation landscape. As manufacturers navigate these challenges, the integration of advanced technologies and innovative solutions is becoming essential for sustained growth and competitiveness in a rapidly changing environment.
RoboticsAndAutomationNews.com By Sam Francis Jul 08, 2026 Automation Industry automation engineers cnc factory automation industrial automation
The industrial production landscape is undergoing a significant transformation due to the rapid advancements in robotics, factory automation, and intelligent manufacturing systems. This shift is characterized by an increasing reliance on highly precise mechanical systems that can operate continuously with minimal deviation. As automation technologies evolve and become more interconnected, modern manufacturing environments are integrating collaborative robots, automated assembly systems, and sensor-driven equipment. These innovations are not only enhancing efficiency but also improving the accuracy and reliability of production processes. The ongoing evolution in this sector reflects a broader trend towards smarter, more automated manufacturing practices that aim to meet the growing demands of global markets.
RoboticsAndAutomationNews.com By Sam Francis Jun 03, 2026 Automation Engineering Factories automated manufacturing automation hardware automation newsRSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.