Group 1: Micro Robotics - The National University of Defense Technology has developed the world's first mosquito-sized bionic robot, measuring only 2 cm in length and weighing 0.3 grams, setting a new record in micro-robotics. This achievement overcomes the bottleneck of micron-level sensing and power integration technology, combining bionics and micro-electromechanical systems for millimeter-level precision movement. Its stealth characteristics allow it to perform reconnaissance and monitoring tasks in restricted areas [1] - Previous research from Beihang University has achieved a 5.5 times increase in load capacity, and this latest development further enhances operational performance, marking China's international leadership in the micro-robotics field and providing strategic technological support for future distributed reconnaissance networks [1] Group 2: Humanoid Robotics - Tesla has revealed a patent for a sophisticated design of a robot knee joint, addressing core issues of flexibility, efficiency, and power consumption in humanoid robots. The patent outlines the challenges faced in traditional robot joint designs and aims to create a knee joint that mimics a wide range of motion while maximizing efficiency [5][6] - The latest humanoid service robot, StarQ5, launched by Star Motion Era, features a sleek design and aims to redefine human-robot interaction. It is equipped with a bionic 7-axis high-precision robotic arm and can perform 10 clicks per second, lift 10 kg with one hand, and navigate tight spaces using a compact chassis and advanced navigation technologies [13] Group 3: Flexible Robotics - West Lake University's team has introduced the world's first flexible variable-stiffness robotic arm and HEART series robots. This breakthrough addresses the limitations of traditional rigid robots in safety and adaptability, showing great potential in applications such as elderly care and medical rehabilitation. The Mawarm robotic arm can switch from a rigid to a soft state in milliseconds to absorb impacts, enhancing safety and adaptability in complex environments [16]