Japanese manufacturer of industrial sewing machines and surface mount technology (SMT) equipment. Produces automated assembly systems for electronics manufacturing and garment production with a broad global presence.
RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.
mimic Robotics has unveiled a new robotic hand, the mimic hand M1, along with the mimic wearable U1 exoskeleton and a proprietary software platform. This integrated system aims to enhance general-purpose dexterous manipulation in industrial robots by addressing the challenge of collecting high-quality training data for AI models that perform human-like tasks. The significance of this launch lies in mimic Robotics' approach to design, which focuses on human hand morphology rather than traditional two-finger grippers. The mimic hand M1 features 15 actuated degrees of freedom and is capable of handling payloads over 25 kg, while the mimic wearable U1 allows human operators to demonstrate tasks in real-time, improving data collection for AI training. Looking ahead, the company’s innovative middleware and teleoperation software are expected to enhance robot control and AI inference speed. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 1 hour ago Components Computing News ai automation dexterous manipulationWarehouse automation is evolving from a mere operational efficiency tool to a strategic priority for organizations, driven by ongoing labor shortages and rising fulfillment expectations. Inteq, a UK-based warehouse automation specialist, emphasizes the importance of integrating robotics and software to create flexible, hardware-agnostic solutions that adapt to changing operational needs. Jon Roberts, sales director at Inteq, highlights that software, particularly Warehouse Execution Systems, is now the critical component of successful automation projects. These systems serve as the central hub connecting robotics, equipment, and personnel, enabling more efficient operations. The shift towards software-first strategies reflects a broader trend where businesses recognize the risks of inaction in the face of increasing competition and complexity in supply chains. Looking ahead, companies investing in integrated automation platforms are likely to gain a competitive edge in logistics and fulfillment. The conversation also touches on the growing role of AI in predictive operations and the transition of autonomous mobile robots into essential warehouse infrastructure, supported by innovative commercial models like Robotics-as-a-Service. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 1 hour ago Features Logistics Supply chain Warehouse robots amrs artificial intelligencePanasonic Connect is at the forefront of transforming manufacturing systems as electronics become smaller and more complex. The company offers smart manufacturing solutions that integrate surface-mount technology (SMT), robotics, AI analytics, and connected factory platforms. Through its Gemba Process Innovation strategy, Panasonic Connect aims to enhance productivity and operational resilience in factories. The increasing complexity of electronics, particularly in vehicles and industrial systems, is reshaping production line design and operations. Scott Zerkle, associate director of technical operations at Panasonic Connect North America, emphasizes that AI's primary value lies in supporting factory workers through predictive maintenance and defect detection, rather than replacing them. He highlights the need for manufacturers to connect data across various production elements to foster continuous improvement. Looking ahead, Zerkle predicts that the next significant advancement in smart manufacturing will involve integrating AI tools with data from machines and materials. This integration will enable factories to learn from their production history, ultimately enhancing efficiency and adaptability in high-mix production environments. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 1 hour ago Communications Computing Digital Automation Features Manufacturing aiAetina, a specialist in edge AI computing, is set to enhance its offerings by adding support for the newly unveiled Nvidia Jetson T3000 and T2000 modules. These modules are designed for robotics and industrial edge AI applications, and Aetina plans to integrate them into its DeviceEdge AIE-KT and AIE-PT systems, providing scalable and efficient AI computing solutions. This expansion is significant as it allows Aetina to leverage Nvidia's advanced AI capabilities, including the ability to run generative AI models with low latency, which is crucial for applications like humanoid robots. The Nvidia Jetson T3000 module boasts up to 865 FP4 TFLOPS, while the T2000 offers up to 400 FP4 TFLOPS, catering to a range of robotics applications from visual AI agents to autonomous mobile robots. Looking ahead, Aetina is among the first partners to support these new modules, with Nvidia expecting them to be available in the first quarter of 2027. The company plans to provide further details on system specifications and developer support as the launch date approaches, making it a key player in the evolving landscape of AI-driven robotics solutions.
RoboticsAndAutomationNews.com 3 hours ago Computing Industry Aetina automation Autonomous robots DeviceEdge AIE-KTStrider Robotics, an Indian startup, has successfully demonstrated a quadruped robot capable of carrying a 40 kg payload across challenging terrains. This marks a significant step as the Bengaluru-based company transitions from prototype development to commercial deployment, with field pilots currently underway with a major oil and gas company and an automotive manufacturer. The importance of this development lies in Strider's focus on enhancing India's domestic robotics manufacturing capabilities, as over 80 percent of the robot's components are sourced locally. Quadruped robots are gaining traction in industries where traditional wheeled vehicles face limitations, such as energy, mining, and infrastructure inspection, due to their ability to navigate uneven surfaces and carry equipment. Looking ahead, Strider Robotics aims to solidify India's position as a key player in the development of intelligent legged robotic systems for industrial and defense applications. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com 3 hours ago Robotics Robotics and Automation Robotics and Automation News Robotics News AI software artificial intelligenceAt the WAIC, RoboScience showcased a groundbreaking cloud-based embodied large model named Visics, capable of controlling multiple robotic hands. This innovation allows for seamless switching between different robotic hands while maintaining operational efficiency, demonstrating the ability to recognize and grasp various objects autonomously within 30 seconds. The significance of this development lies in its potential to revolutionize robotic operations across diverse applications. By enabling a single model to adapt to various hand configurations, Visics enhances the versatility of robotic systems, allowing them to perform complex tasks without the need for extensive retraining when hardware changes occur. Looking ahead, the industry will be keen to observe how Visics performs in real-world scenarios and its ability to execute long-term tasks by integrating multiple actions. No further timeline was disclosed at the time of publication.
leaderobot.com 3 hours ago Robotics Cloud Computing AI Automation Object RecognitionAt the WAIC exhibition, the Gino 1 humanoid robot from Geek+ stood out by combining generalization capabilities with operational efficiency in real-world tasks. Unlike other robots that either excelled in speed or adaptability, Gino 1 demonstrated its ability to perform end-to-end workflows, including precise item picking and collaborative operations with mobile robots. The significance of Gino 1 lies in its advanced full-body parallel control, which reduces task completion time by approximately 30%. This innovative approach allows simultaneous movement and manipulation, resulting in smooth and stable operations without interruptions. The robot's integration with Geek+'s AI scheduling system enhances its efficiency across entire workflows rather than focusing on individual machine performance. Looking ahead, Gino 1's ability to adapt to various physical conditions and its dynamic response to unexpected challenges highlight its potential in real-world applications. As it continues to learn from each task, Gino 1 exemplifies the concept of self-evolution, making it a noteworthy development in the field of intelligent robotics. No further timeline was disclosed at the time of publication.
leaderobot.com 6 hours ago Humanoid Robots AI Warehouse Automation Robotics TechnologyAGIBOT unveiled four new products at the WAIC 2026, including the AGIBOT A3 Ultra and G2 Max, which emphasize the company's advancements in embodied AI and robotics. The showcase featured over 30 robots demonstrating their capabilities in various applications, reinforcing AGIBOT's commitment to integrating robotic systems into real-world workflows. This event is significant as it illustrates AGIBOT's dedication to enhancing robotics for commercial and industrial environments, showcasing how embodied AI can improve operational efficiency. The introduction of these products reflects the growing trend of utilizing advanced robotics to address practical challenges in various sectors. Looking ahead, industry observers should monitor AGIBOT's future developments and product deployments, as the company continues to push the boundaries of robotics and AI integration. No further timeline was disclosed at the time of publication.
agibot.com 6 hours ago Robotics Embodied AI Industrial Automation Technology Artificial IntelligenceAt the World Artificial Intelligence Conference (WAIC), six robots from General Embodied Intelligence Company, Yuanli Lingji, undertook a challenging task to assemble a Great Wall model using 81,920 micro building blocks over 15 hours. Each robot was required to complete approximately 910 assembly actions per hour, achieving a speed comparable to skilled human workers. This demonstration highlights the complexities of robotic assembly, as traditional industrial robots operate under fixed conditions, while block assembly requires real-time perception and adaptability to varying positions and angles. The robots needed to maintain sub-millimeter precision throughout the task, pushing the limits of robotic capabilities and mimicking human dexterity. The execution team consisted of four desktop robots and two humanoid wheeled robots, each equipped with independent perception, decision-making, and execution abilities. The challenge tested multi-agent collaboration in a dynamic environment, emphasizing the need for real-time negotiation and coordination among robots to adapt to unforeseen circumstances during the assembly process. No further timeline was disclosed at the time of publication.
leaderobot.com 6 hours ago Robotic Assembly AI Technology Collaborative Robotics Precision EngineeringAt the 2026 World Artificial Intelligence Conference (WAIC), BrainCo showcased a brain-controlled robot training platform. This innovative platform allows users to control robotic arms through brainwave signals, enabling actions like pouring water and picking apples without traditional interfaces. The significance of this technology lies in its ability to bridge the gap between human intention and robotic action. By decoding brain signals, the platform facilitates a direct communication pathway, allowing robots to understand and execute tasks based on users' thoughts. This advancement simplifies the integration of brain-machine interfaces with robotics, making it accessible to researchers without specialized backgrounds. Looking ahead, BrainCo's platform supports various robotic types, including humanoid robots and robotic arms, and is adaptable for ongoing developments. Researchers can select robots based on their study focus, whether for grasping tasks or complex human-robot interactions. No further timeline was disclosed at the time of publication.
leaderobot.com 6 hours ago Brain-Controlled Robots AI Research Neuro-Embodied AI Human-Robot Interaction
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