整理 | GLP1减重宝典内容团队 在技术之外，强脑科技近期的一项产品表态引发了市场高度关注。公司创始人韩璧丞公开表示，团队正在尝试研发一种类似"电子版司 美格鲁肽"的产品，希望用户佩戴后在一段时间内食欲下降，从而辅助减重。这一跨界设想迅速引发讨论，也让脑机接口在消费级应用 上的边界问题成为焦点。 在人工智能、柔性材料和生物传感器等技术加速融合的背景下，脑机接口正从前沿科研走向实际应用，行业进入快速成长期。相关数据 显示，全球脑机接口市场规模预计到2034年将达到约124亿美元，复合年增长率为17.35%。在这一浪潮中，"杭州六小龙"之一的强脑科 技完成Pre-B轮融资后，投后估值突破13亿美元，成为国内脑机接口赛道中融资规模靠前的独角兽企业，并开始加快推进资本市场布 局。不过，其部分面向消费端的产品，也逐渐引发外界争议。 政策层面，脑机接口已被纳入国家中长期科技与产业规划。近两年，工信部等七部门明确了产业发展路径和时间表，提出到2027年实现 关键技术突破，到2030年整体实力跻身世界前列。当前，我国在非侵入式脑机接口领域处于全球领先位置，在政策红利推动下，技术研 发与商业化进程有望进一步提速。 从全球技术 ...

Summary of the Conference Call for Dow's Technology Company and Industry Overview - **Company**: Dow's Technology - **Industry**: AI and Materials Science, specifically focusing on brain-machine interface technology and advanced materials for robotics and sensors [2][3] Core Points and Arguments - **Investment in Long Brain Technology**: Dow's Technology invested $30 million in Long Brain Technology, a leader in non-invasive brain-machine interface technology, founded by Dr. Han Bicheng from Harvard University [4] - **Strategic Goals**: The investment aims to enhance product development efficiency and iteration speed through AI capabilities, aligning with Dow's strategy to become a platform company integrating AI with materials [4] - **Role of New Peison**: New Peison is crucial in Dow's AI strategy, focusing on discovering new materials and enhancing existing ones, particularly in humanoid and special robots, and sensor materials [5] - **AI Chip Development**: New Peison specializes in computing chips, addressing complex AI problems that traditional methods struggle with, and has received recognition from experts in the field [6] - **Artificial Neural Networks**: These networks excel in solving complex problems that cannot be described by equations, such as language models and image recognition, primarily relying on GPU technology [7] Breakthroughs and Innovations - **Advancements in Computing**: New Peison achieved significant breakthroughs in addressing the "curse of dimensionality," improving speed and reducing power consumption in molecular dynamics and density functional theory calculations [8] - **APU Chip Applications**: The APU chip simulates the Schrödinger equation, applicable in various fields of materials science, including military, chemical, lithium battery, photovoltaic, semiconductor, and cosmetics [9][10] - **Future Development Plans**: New Peison plans to expand its technology applications to larger-scale problems, such as weather simulation and vehicle aerodynamics, by developing the EPU chip for high-speed, low-power calculations [11] Additional Important Insights - **Successful Transition**: Dow's Technology transitioned from a focus on ceramic ink materials to the renewable energy sector in 2018, leveraging AI opportunities for larger-scale development [12] - **Collaborative Strategy**: The collaboration with Long Brain Technology and other companies is part of a unified strategy of "AI + materials + applications," aiming for breakthroughs in new material development [5]

Core Insights - Strong Brain Technology's bionic hand is one of the few mass-produced prosthetics that allows users to control each finger through neural electrical signals without invasive surgery [1] - The non-invasive brain-computer interface (BCI) technology is gaining attention due to its higher safety and accessibility potential, marking a critical phase of transitioning from laboratory to commercialization [1][3] - Dao's Technology announced a $30 million investment in Strong Brain Technology's Pre-B round preferred shares, aiming to leverage its experience in materials to create an "AI + materials" platform [1] Company Developments - Strong Brain Technology aims to empower individuals with disabilities by providing bionic prosthetics that enable them to perform daily tasks such as grasping objects and walking [1][2] - The company has successfully mass-produced bionic prosthetics that enhance user experience, including a bionic leg that provides a natural walking experience and reduces the risk of falling [1][2] - Strong Brain Technology has become a leading supplier of dexterous hands for humanoid robots, capitalizing on its technological advancements in bionic hands [2] Technological Innovations - The company has made significant advancements in reading and interpreting weak human electrical signals, which are crucial for controlling bionic limbs [2] - Innovations in materials science and AI algorithms have enabled the company to capture and process these signals more effectively, simplifying the user experience [2][3] - The integration of AI in non-invasive BCI technology has accelerated industry growth, allowing for better extraction of relevant information from complex signals [3] Consumer Focus - Strong Brain Technology emphasizes the importance of understanding consumer needs to fulfill its vision of "unlocking more possibilities in life" [3] - The company aims to develop the next generation of bionic limbs that allow for bidirectional interaction, enabling users to sense external conditions [3] - Despite reducing the price of bionic limbs to one-fifth to one-tenth of European brands, the cost remains a burden for many disabled individuals [3][4] Social Responsibility - The company collaborates with local disability associations and charitable organizations to provide free bionic hands and legs to eligible individuals [4] - A project initiated by the Zhejiang Provincial Disabled Persons Welfare Foundation has already benefited 400 individuals, with plans to assist 2,000 more this year [4]

Core Insights - Strong Brain Technology's bionic hand is one of the few mass-produced prosthetics that allows users to control each finger through neural electrical signals without invasive surgery [1][2] - The non-invasive brain-computer interface (BCI) technology is gaining attention due to its higher safety and accessibility potential, marking a critical phase of transitioning from laboratory to commercialization [1][5] Group 1: Product and Technology - The bionic prosthetics produced by Strong Brain Technology enable users to perform daily tasks such as grasping objects, writing, and playing instruments [2] - The company has made significant advancements in signal collection, allowing users to control the bionic hand with minimal delay after a brief signal collection process [2][3] - Strong Brain Technology has become a leading supplier of dexterous hands for humanoid robots, leveraging its experience in bionic hands to address engineering challenges in robotics [3] Group 2: Innovation and Development - The company has achieved breakthroughs in materials science and AI algorithms, enhancing the sensitivity and stability of signal capture without the need for conductive gel on the skin [3][4] - AI algorithms play a crucial role in the development of non-invasive BCI technology, enabling the extraction of relevant information from complex and noisy signals [4] Group 3: Market and Social Impact - Strong Brain Technology aims to make bionic prosthetics more affordable, reducing prices to one-fifth to one-tenth of European brands, yet still recognizes the financial burden on many disabled individuals [5] - The company collaborates with local disability organizations and foundations to provide free bionic hands and legs to eligible individuals, with a goal to assist 2,000 disabled people in Zhejiang this year [5][6]

Core Insights - Strong Brain Technology's bionic hand is one of the few mass-produced prosthetics that allows users to control each finger through neural electrical signals without invasive surgery [1][2] - The non-invasive brain-computer interface (BCI) technology is gaining attention due to its higher safety and accessibility potential, marking a critical phase of transitioning from laboratory to commercialization [1][4] Company Developments - Dao's Technology announced a $30 million investment in Strong Brain Technology's Pre-B round preferred shares, aiming to leverage its experience in materials to create an "AI + materials" platform [1] - Strong Brain Technology has successfully mass-produced bionic prosthetics that enable users to perform daily tasks such as grasping objects and writing [2][3] Technological Innovations - The company has made significant advancements in reading and interpreting weak human electrical signals, which are crucial for controlling bionic limbs [3][5] - Innovations in materials science and AI algorithms have improved the sensitivity and stability of signal capture, allowing for direct skin contact without conductive gel [3][4] Market Trends - The demand for humanoid robots is increasing, with over half of the engineering challenges focused on the dexterity of robotic hands, which Strong Brain Technology is addressing through its expertise in bionic hands [3] - The rapid development of AI algorithms has facilitated the extraction of relevant information from complex signals, enhancing the capabilities of BCI technology [4] Social Impact Initiatives - Strong Brain Technology aims to make bionic limbs more affordable, reducing prices to one-fifth to one-tenth of European brands, while also collaborating with organizations to provide free prosthetics to eligible individuals [5][6] - The company plans to assist 2,000 disabled individuals in Zhejiang with free bionic limb installations, promoting social reintegration for marginalized groups [6]