主要规格及技术指标

Quantity: 10 sets
1. Drive Method: Precision servo motor drive with force feedback capability.
2. Degrees of Freedom: Five fingers move independently, each with multiple joint degrees of freedom, simulating most human hand grips and fine movements.
3. Gripping force: Adjustable, typical maximum gripping force ≥ 15N.
4. Action response latency: < 200 milliseconds from intent recognition to robotic hand activation.
5. Glove material: Lightweight, breathable composite fabric, adaptable to various hand shapes.
6. Power supply: Rechargeable lithium battery, typical continuous operating time ≥ 4 hours.
7. Control Software: Dedicated PC/mobile application providing real-time signal visualization, training modes, action library configuration, and data logging.
8. Action Modes: Pre-programmed grasping and gesture modes (e.g., pinch, grasp, grab, tap) with support for user-defined action sequences.
9. Data Interface: API/SDK provided for secondary development and research integration.
数量:10 套
1.驱动方式：精密伺服电机驱动，具备力反馈功能。
2.自由度：5指独立运动，每根手指具备多个关节自由度，可模拟人手多数抓握与精细动作。
3.抓握力：可调，最大抓握力典型值 ≥ 15N。
4.动作响应延迟：从意图识别到机械手启动 < 200毫秒。
5.手套材质：轻质透气复合材料，适配不同手型。
6.电源：可充电锂电池，典型连续工作时间 ≥ 4小时。
7.控制软件：专用PC/移动端应用程序，提供实时信号可视化、训练模式、动作库配置及数据记录功能。
8.动作模式：预置多种抓握与手势模式（如捏、握、抓、点等），支持用户自定义动作序列。
9.数据接口：提供API/SDK，支持二次开发与研究集成。

主要功能及特色

1. Intuitive Motion Control: Utilizing non-invasive brain-computer interface technology, it directly decodes the brain's movement intentions to achieve “mind-controlled hands.” Users can precisely control the speed and position of all five fingers—supporting diverse gestures like grasping, pinching, and stretching—without complex training, just as they would with their natural hands.
2. Lightweight and Ergonomic Design: Constructed with high-strength lightweight materials and a modular structure, it weighs only about 350g for comfortable, unobtrusive wear. The open-fit socket ensures breathability and comfort, eliminating the stuffiness of traditional prosthetics and significantly reducing abandonment rates. Its appearance closely mimics the natural form of the human hand, balancing practicality and aesthetics.
3. BrainAl Artificial Intelligence Neuroscience Curriculum is a PBL program emphasizing student engagement and achievement, applicable across school, institutional, summer/winter camp, and competition settings. Students gain deep understanding of neuroscience, AI, programming, electronics, and mechanical structures through hands-on learning, integrating “solving real-world problems” and “creating tangible impact” methodologies into daily life.
1.直觉式运动控制：基于非侵入式脑机接口技术，直接解码大脑运动意图，实现 “意念控手”—— 用户无需复杂学习，即可像控制原生手一样，精准控制五根手指的运动速度、位置，支持抓取、捏取、伸展等多样化手势表达。​
2.轻量化与人体工学设计：采用高强度轻量化材质与模块化结构，重量仅 350g 左右，佩戴无负担；接受腔透气舒适，解决传统假肢封闭闷热问题，显著降低弃用率；外观设计贴近人体手部形态，兼顾实用性与美观性。
3.BrainAl人工智能脑科学课程是一套注重学生体验感和成就感的PBL课程，有进校、机构、冬夏令营和比赛等多应用场景。学生在动手和学习中深入理解脑科学、人工智能、编程、电子电路、机械结构等内容，并且将“解决真实社会问题”、“创造真实世界影响”的学习方法代入日常生活中​。

主要附件及配置

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