强强联合！强脑科技联袂港大，共探“脑-眼-手”具身智能前沿

Core Viewpoint - The integration of embodied intelligence and brain-machine interfaces is entering a historic strategic window, driven by supportive policies and significant collaborations in the industry [1]. Policy and Industry Context - In January 2026, a joint policy by eight departments, including the Ministry of Industry and Information Technology, was released to accelerate the industrialization and commercialization of brain-machine interfaces and embodied intelligence products [1]. - The policy emphasizes innovation in embodied intelligence products and the establishment of humanoid robot pilot bases to facilitate the transition from laboratory to production line [1]. - In February 2026, the Ministry further highlighted brain-machine interfaces and embodied intelligence as key disruptive technologies alongside 6G and quantum technology, signaling a national push for breakthroughs [1]. Company Collaboration - On February 28, 2026, Strong Brain Technology signed a strategic cooperation agreement with the Hong Kong University Shanghai Intelligent Computing Research Institute, marking a new phase in their collaboration in the field of brain-machine interface and embodied intelligence [1][3]. - The signing ceremony was attended by key figures from both organizations, indicating a strong commitment to this partnership [3]. Technological Innovations - Strong Brain Technology focuses on non-invasive brain-machine interfaces and human-machine integration, with proprietary technologies in neural signal acquisition and thought control [5]. - The company has developed a dexterous hand, Revo 2, weighing 383 grams with a load capacity of 20 kilograms and a precision of 0.1mm, achieving a grip-to-weight ratio of 52:1, setting a new industry standard [5]. - The company emphasizes the importance of stability and precision in embodied intelligence, highlighting the iterative process of learning from failures to enhance system performance [6]. Research and Development Focus - Strong Brain Technology and the Hong Kong University will collaborate on three main research areas: platform co-development, multimodal data integration, and task evaluation systems [6]. - The goal is to create a humanoid robot experimental platform that adapts to high degrees of freedom dexterous hands and to establish a comprehensive data loop covering brain signals, visual information, and tactile feedback [6]. Future Outlook - The partnership aims to leverage the strengths of both organizations to facilitate the transition from fundamental research to industrial applications, particularly in smart manufacturing and medical rehabilitation [13]. - Strong Brain Technology anticipates that the collaborative efforts will enable the widespread application of "brain-eye-hand" technologies, benefiting various sectors [13].