Group 1 - A distributed intelligent micro-robot called "smartlets" has been developed by scientists at Chemnitz University of Technology, capable of communication and collaboration in water, marking a significant advancement in intelligent robotic systems [2] - Chinese scientists have created the world's first adaptive, full-band, high-speed wireless communication chip based on optoelectronic integration technology, achieving over 120 Gbps transmission rates, which meets the peak rate requirements for 6G communication [2] - Samsung Electronics plans to manufacture Tesla's AI6 processor using its second-generation 2nm process technology, SF2P, with initial trials in South Korea and mass production in Texas [2]

Core Insights - The development of distributed intelligent micro-robots called "smartlets" by scientists at Chemnitz University of Technology represents a significant advancement in micro-robotic systems towards intelligent collaboration [1][2] - These robots are inspired by origami and utilize flexible manufacturing processes, allowing flat electronic systems to autonomously fold into hollow micro-cubes, enhancing their functionality [1] Group 1: Technology and Innovation - Smartlets can communicate and respond to each other in water, utilizing a bubble engine for buoyancy to move up and down [1] - They emit light pulse signals to transmit instructions to nearby robots, enabling synchronized and coordinated actions among multiple units [1][2] - A key innovation is the "wireless communication loop," which allows for robot communication without external cameras, magnets, or antennas [2] Group 2: Applications and Future Potential - The research team envisions broad applications for smartlets, including water quality monitoring, minimally invasive medical diagnostics, and closed environment detection due to their biocompatibility and environmental responsiveness [2] - The ability to form interactive, stimulus-responsive clusters positions smartlets for use in soft robotics, autonomous detection systems, and distributed sensor networks [2] - Future enhancements may include chemical and acoustic sensing modules, evolving smartlets into multifunctional platforms capable of perception, action, and adaptation in complex fluid environments [2]