Key Laboratory for the Physics & Chemistry of Nanodevices, School of Electronics, Peking University, Beijing 100871, China.
School of Electronics Engineering and Computer Science, Peking University, Beijing 100871, China.
Sensors (Basel). 2022 Dec 7;22(24):9568. doi: 10.3390/s22249568.
In this work, we presented a novel encoding method for tactile communication. This approach was based on several tactile sensory characteristics of human skin at different body parts, such as the head and neck, where location coordinates in the three-dimensional (3D) space were clearly mapped in the brain cortex, and gentle stimulations of vibrational touching with varied strengths were received instantly and precisely. For certain applications, such as playing cards or navigating walk paths for blinded people, we demonstrated specifically designed code lists with different patterns of tactile points in varied temporal sequences. By optimizing these codes, we achieved excellent efficiency and accuracy in our test experiments. As this method matched well with the natural habits of tactile sensory, it was easy to learn in a short training period. The results of the present work have offered a silent, efficient and accurate communication solution for visually impaired people or other users.
在这项工作中,我们提出了一种新的触觉通信编码方法。这种方法基于人体不同部位(如头部和颈部)皮肤的几种触觉感知特性,在大脑皮层中清晰地映射了三维(3D)空间中的位置坐标,并且可以即时、精确地接收不同强度的振动触觉刺激。对于某些应用,例如玩牌或为盲人导航行走路径,我们展示了具有不同时间序列中不同触觉点模式的特定设计的代码列表。通过优化这些代码,我们在测试实验中实现了优异的效率和准确性。由于这种方法与触觉感知的自然习惯非常匹配,因此在短时间的培训期间很容易学习。本工作的结果为视障人士或其他用户提供了一种无声、高效和准确的通信解决方案。