一个新的指尖装置以81%的精确度,利用静电力模拟触摸屏上的实际纹理。 A new fingertip device simulates real textures on touchscreens using electrostatic forces with 81% accuracy.

包括James Colgate博士和Sylvia Tan博士在内的研究人员开发的名为VoxeLite的一种新的可磨损指尖装置,使用户能够利用静电力量感受到触摸屏上的纹理。 A new wearable fingertip device called VoxeLite, developed by researchers including Dr. James Colgate and Sylvia Tan, allows users to feel textures on touchscreens using electrostatic forces. 薄软装置通过小节点对皮肤产生局部压力,模拟真材料,如皮革和电线室,精度高达81%。 The thin, soft device creates localized pressure on the skin via tiny nodes, simulating real materials like leather and corduroy with up to 81% accuracy. 它的运作没有移动部件,无缝地以被动模式运作,可以加强虚拟现实,为视力受损者提供辅助工具,以及在线购物。 It operates without moving parts, works seamlessly in passive mode, and could enhance virtual reality, assistive tools for the visually impaired, and online shopping. 该技术在《科学进步》中发表,将高分辨率触觉反馈与长期可磨损性结合起来,标志着数字触摸界面的重大进步。 The technology, published in Science Advances, combines high-resolution tactile feedback with long-term wearability, marking a major advance in digital touch interfaces.