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Website: https://www.robotphoenix.com/
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Email: [email protected]
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Phone: +86-571-8264-9522
Founded in 2012, RobotPhoenix specializes in high-speed, lightweight industrial robotics and motion control systems. Its product portfolio includes Delta (Bat series), SCARA (Python series), 6-axis (Mantis series), and wafer-handling (Lobster series) robots, alongside AGV/AMR solutions. The company focuses on core technology development, including high-precision motion control algorithms, 2D/3D visual modules, and the proprietary Gorilla Studio software. This modular architecture supports advanced features like torque control, conveyor tracking, and fly-capture. These systems are engineered for high-precision operations—such as sorting, picking, and soldering—across the food, pharmaceutical, electronics, and photovoltaic industries.
RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.
AGIBOT has launched four new products at the World Artificial Intelligence Conference 2026 in Shanghai, showcasing advancements in embodied AI. The new offerings include the AGIBOT A3 Ultra, X2 Edu, G2 Max, and OmniHand 3 Ultra-M, which enhance AGIBOT's range of humanoid platforms, industrial task robots, and dexterous manipulation systems. This product unveiling is significant as it demonstrates AGIBOT's commitment to transforming robotic capabilities into practical, repeatable workflows in real-world settings. With over 30 AGIBOT robots currently operational at WAIC venues, the company is making strides in integrating advanced robotics into various applications. Looking ahead, industry observers will be keen to see how these new products perform in live demonstrations and their potential impact on industrial deployments. No further timeline was disclosed at the time of publication.
RoboticsTomorrow.com 12 hours agoAt the 2026 WAIC, a notable shift in robotics was observed as manufacturers increasingly focused on developing dexterous hands. Over the past two years, the industry has seen a surge in the complexity of these hands, with degrees of freedom increasing from six to twelve, sixteen, or even more. The ability of a robotic hand to perform tasks such as solving a Rubik's Cube or threading a needle has become a key benchmark for technological capability. As more dexterous hands demonstrate impressive capabilities, the industry must now address critical questions about their operational continuity, scalability, repairability, and the data they generate to enhance future performance. Companies like Aoyi Technology are expanding their product boundaries beyond mere actuators to include tactile-enabled devices like ROHand and OpenArm, integrating data collection and training tools into a cohesive system. This evolution signifies a shift from merely creating human-like hands to developing hands that can engage in a robotic learning loop. The industry's future hinges on whether these hands will become high-end toys or genuine industrial products, with reliability emerging as a core performance metric alongside flexibility and load capacity.
leaderobot.com 12 hours ago Dexterous Hands Robotics Technology Industrial Automation Sensor TechnologyWAIC 2026 in Shanghai (July 17–20) saw 200+ embodied intelligence companies, 300+ live robots, and first confirmed humanoid deployments in logistics and pharmacy. RobotToday engineering analysis.
ByThomas Siew Jul 18, 2026At WAIC 2026, Yimu Technology attracted significant attention with its demonstration involving two identical peanuts. The exhibit illustrated the concept that while visual cues may be indistinguishable, tactile feedback reveals critical differences in texture and resilience. This highlights the importance of physical interaction in understanding the physical world. The significance of this demonstration lies in its implications for Physical AI. Traditional robots have struggled to interpret tactile information, often failing in tasks requiring sensitivity, such as handling fragile items. Yimu Technology emphasizes that the key to advancing robotics is not merely increasing model size but ensuring robots receive accurate physical feedback from their environment. Looking ahead, the focus will be on how effectively robots can integrate this tactile feedback into their operations. Yimu Technology's approach, which utilizes optical systems to measure minute deformations, could revolutionize how robots interact with their surroundings. No further timeline was disclosed at the time of publication.
leaderobot.com Jul 18, 2026 Physical AI Tactile Sensors Robotics Machine Learningmimic 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 Jul 18, 2026 Components Computing News ai automation dexterous manipulationAt 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 Jul 18, 2026 Robotics Cloud Computing AI Automation Object RecognitionAt 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 Jul 18, 2026 Robotic Assembly AI Technology Collaborative Robotics Precision EngineeringSarah Downs, a graduate student at Texas A&M University, has developed an algorithm for NASA that enables robots to assemble satellites in space. This algorithm addresses the classic peg-in-hole problem by allowing robots to insert antennas accurately into designated spots. Downs's work is significant as it enhances the capabilities of robots operating in the challenging environment of outer space. The importance of Downs's research lies in its potential to improve satellite assembly processes, which are critical for space missions. By creating a robot that can perform tasks without relying on vision systems, Downs addresses the challenges posed by the harsh conditions of space where cameras may fail. This innovation could lead to more reliable and efficient satellite deployment in future missions. Looking ahead, Downs plans to continue her research on satellite assembly and manipulation at a larger scale. As she progresses in her Ph.D. studies, her work will likely contribute to advancements in robotics that could transform how satellites are constructed and maintained in orbit. No further timeline was disclosed at the time of publication.
IEEESpectrumRobotics Jul 17, 2026 Type-ti Ieee-member-news Robots Nasa Student-member Satellites1X has launched a new tendon-driven robotic hand for its NEO humanoid platform, featuring 25 degrees of freedom. This design enhances dexterity, strength, and tactile sensing, enabling advanced AI-driven manipulation capabilities. The introduction of these hands aims to eliminate the 'hardware ceiling' that has previously restricted humanoid robots, allowing for more human-like manipulation. The hands can perform various tasks, including assembling LEGO models and using tools, showcasing their versatility and advanced functionality. Looking ahead, 1X has established a dedicated production line and plans to manufacture up to 10,000 units this year, which will facilitate broader deployment of the NEO humanoid platform. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com Jul 17, 2026 Humanoids News 1x artificial intelligence automation embodied aiA new robotic hand has been developed that can switch between multiple grippers using just one motor. This innovation addresses the need for robots to handle a wide variety of objects across different environments, including factories and households. The ability to manage diverse objects with a single motor reduces the complexity associated with traditional robotic hands, which typically rely on multiple motors and intricate control systems. This advancement not only lowers the weight and cost of robotic systems but also minimizes the risk of failures and simplifies control mechanisms. As the demand for adaptable robotic solutions grows, this new technology could significantly impact various sectors. Future developments may focus on enhancing the versatility and efficiency of robotic hands, although no further timeline was disclosed at the time of publication.
TechXplore:Robotics Jul 17, 2026 RoboticsRobbyant, a company specializing in embodied AI under Ant Group, has unveiled the upgraded LingBot-VLA 2.0 model. This next-generation vision-language-action model enhances morphological generalization, degrees of freedom support, and deployment efficiency, addressing a critical gap in the embodied AI industry. The significance of LingBot-VLA 2.0 lies in its extensive pre-training on 60,000 hours of real-world data, which includes interactions from 20 different robot morphologies. This upgrade allows for improved whole-body control and dual-arm manipulation, achieving leading scores on benchmarks, thus demonstrating its effectiveness in industrial-scale deployment. Looking ahead, the introduction of a version optimized for efficient post-training and a threefold increase in inference efficiency positions LingBot-VLA 2.0 as a strong contender for real-time commercial applications. No further timeline was disclosed at the time of publication.
RoboticsAndAutomationNews.com Jul 17, 2026 Computing Robot simulation artificial intelligence dual-arm robots embodied ai humanoid robotsUbicept demonstrated single-photon SPAD imaging at Automate 2026, achieving 140 dB HDR and >10 dB SNR gains for industrial robotics edge AI.
ByRobotToday Reporter Jun 29, 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, 2026Modular, prefab, and 3D printing are moving construction off-site. ICON's Phoenix printer targets multi-story builds. PERI-COBOD's DREIHAUS delivered 30% faster and 10% cheaper in Germany. WinSun re-enters the US as Gaudi Tech. The paradigm shift is accelerating.
BySimon Dicky May 01, 2026Your weekly robotics briefing: AGIBOT ships its 10,000th humanoid, UBTech reports a 23-fold revenue surge, Baidu robotaxis freeze in Wuhan, Saronic raises $1.75B, and Generalist’s GEN-1 hits 99% task success. March 30 – April 4, 2026.
ByRobotToday Reporter Apr 04, 2026Surface finishing robots are construction's hottest automation segment. Okibo, Canvas, Dusty Robotics, Pictobot, and Brightrobot are rewriting the economics of painting, drywall, and tile-setting. Key stat: Okibo's EG7+ cuts finishing labor costs 50% and operates 10x faster than manual crews.
BySimon Dicky Mar 27, 2026Boston Dynamics' valuation has surged from $1.1B to a potential IPO target of $85B+. We verify the numbers, benchmark against Tesla Optimus, Figure AI and Apptronik, and explain what a listing would mean for the humanoid robotics industry.
ByKelly Stone Mar 19, 2026March 7-14, 2026 robotics news – humanoid advancements, major funding like Sunday's $165M, Atoms launch, physical AI breakthroughs, and industrial automation updates.
ByRobotToday Reporter Mar 14, 2026Humanoid robot reliability remains the biggest barrier to scale. Explore failure modes, actuator durability, MTBF challenges, and global engineering solutions.
ByThomas Siew Nov 19, 2025DoorDash rolls out autonomous delivery robots that reshape food logistics, combining smart navigation and contactless service for scalable last-mile delivery.
ByAlex Oct 01, 2025
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