Bormatec Unmanned Vehicles GmbH

German DJI-certified drone enterprise partner and flight training academy offering UAV pilot licensing (A2/STS), maintenance, and inspection services. Conducts building and photovoltaic system inspections using commercial drones.

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Bormatec Unmanned Vehicles GmbH
Mooswiesen 17/2
Ravensburg 88214
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Lu Ce Wu Advances Embodied Intelligence at Qiongche Intelligent in China

Lu Ce Wu Advances Embodied Intelligence at Qiongche Intelligent in China

Lu Ce Wu, a scientist from Chaoshan, has made significant strides in the field of embodied intelligence, establishing Qiongche Intelligent in 2023. This venture aims to enhance robotic capabilities, with a focus on real-world applications. In 2025, Qiongche's robots will be deployed in a pharmacy in Shenyang, demonstrating autonomous navigation and product recognition without altering existing systems. The significance of Lu's work lies in his commitment to embodied intelligence, a concept he believes should extend beyond digital confines to interact with the physical world. His journey began in 2012 when he recognized the potential of AI after witnessing AlexNet's success. Despite initial challenges in promoting embodied intelligence in China, Lu's persistence has led to recognition, including the Science Exploration Award in 2023, making him the first recipient in this field. Looking ahead, Lu plans to further develop Qiongche Intelligent's capabilities and has established the first AI doctoral program in China. He emphasizes the importance of strategic planning and talent cultivation to prepare for the future of embodied intelligence. No further timeline was disclosed at the time of publication.

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Seoul University Introduces Single-Layer Artificial Skin for Enhanced Robotic Sensory Perception

Seoul University Introduces Single-Layer Artificial Skin for Enhanced Robotic Sensory Perception

On July 10, a research team led by Professor Seung Hwan Ko at Seoul University published a significant study in Nature Materials, unveiling a novel single-layer artificial skin. This innovative material allows robots to simultaneously sense temperature and pressure, mimicking human sensory capabilities. The design utilizes a silver-core-copper oxide shell nanowire network, enabling rapid switching between temperature and mechanical sensing modes at a frequency of 16 Hz. The development is crucial as it addresses the limitations of existing artificial skin technologies, which typically rely on multiple stacked sensors, resulting in complex structures and slower response times. The new sensor demonstrates remarkable response speeds, with mechanical stimuli detected in microseconds and thermal stimuli in milliseconds. When combined with AI models, the sensor's accuracy in object recognition improved from 65% to 95% by integrating signals from both sensing modes, showcasing its potential for real-world applications. Looking ahead, the research team has created a multi-array platform that can measure temperature and pressure distribution with spatial resolution comparable to human skin. This technology not only serves as a fingertip sensor but also has the potential to evolve into a comprehensive artificial skin system for robots. The team emphasizes that this advancement is a key enabling technology for physical AI systems, allowing machines to perceive and interact with their environment more effectively. No further timeline was disclosed at the time of publication.

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XSTO Mobility Launches $28,000 X12 Stair-Climbing Robot with AI and LiDAR Technology

XSTO Mobility Launches $28,000 X12 Stair-Climbing Robot with AI and LiDAR Technology

XSTO 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.

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ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics has successfully completed the world's first fully robotic cataract surgery using its JASPER platform, led by Dr. Alexey Rapoport in April 2026. This groundbreaking procedure was performed at the Asian Eye Institute in the Philippines, showcasing JASPER's ability to execute the entire surgery autonomously without general anesthesia, adhering to modern cataract surgery standards. The significance of this achievement lies in JASPER's unique design, which empowers surgeons rather than replacing them. By integrating AI algorithms, advanced computer vision, and miniature mechanical technology, JASPER provides enhanced imaging and precision control, allowing surgeons to perform with the accuracy of elite professionals. This innovation also addresses ergonomic concerns, as it enables surgeons to operate seated, potentially extending their careers and improving surgical outcomes. Looking ahead, ForSight Robotics aims to secure FDA approval for JASPER in the United States, with plans to bring this technology to market in the coming years. The company has raised $195 million since its founding in 2020, with significant investments from notable figures and organizations. No further timeline was disclosed at the time of publication.

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UC San Diego Team Demonstrates G1 Humanoid Robot 'Surgie' in First Live Surgery

On July 8, a research team from the University of California, San Diego, published a groundbreaking study in Nature, showcasing the G1 humanoid robot, nicknamed 'Surgie.' This robot, weighing 27 kg and priced from $13,500, successfully performed two laparoscopic cholecystectomies on live pigs, marking a significant milestone in robotic surgery. The significance of this achievement lies in the G1's affordability and adaptability compared to traditional surgical robots like the da Vinci system, which costs between $500,000 and several million dollars. Surgeon's remote control of the G1 allows for deployment in various settings, including rural areas, battlefields, and potentially space missions, without the need for specialized operating room modifications. Despite the success, the technology still faces challenges before clinical application, such as the need for frequent recalibration during surgery, which increases operation time. The G1's limited arm span of 450 mm also restricts its operational range. No further timeline was disclosed at the time of publication for the next steps in this research.

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Booster Robotics Powers All Gold Medal Wins at RoboCup 2026 in South Korea

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At the RoboCup 2026 held in Incheon, South Korea, Tsinghua University's Fire God team secured the championship title by defeating their opponent 6-2. Notably, all gold medals in the humanoid categories were won by robots from the same Chinese company, Booster Robotics. A total of 59 teams participated, with 38 utilizing Booster Robotics' platforms, including the Booster T1, K1, and K1 Air models. The significance of this achievement lies in the shift towards a shared robotics platform, allowing teams to focus on advanced capabilities such as visual perception and multi-agent collaboration rather than starting from scratch. This year, teams like B-Human and the University of Wuhan leveraged Booster Robotics' technology, which has evolved to enhance leg movement control, enabling high-speed running and quick recovery from falls. This collaborative approach has streamlined development and improved performance in competitive settings. Looking ahead, the emergence of the youngest participating team from Macau, which utilized Booster Studio for algorithm training, highlights the growing accessibility of robotics education. As more teams adopt Booster Robotics' platforms, the trend towards a unified infrastructure for embodied intelligence is becoming evident. No further timeline was disclosed at the time of publication.

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Jake Laser Transforms Unitree Robot Dog into Wheelchair for Father’s Mobility

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Genie G2 Achieves Key Certifications in China, EU, and USA for Global Market Access

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