"Touchscreens and other interactive displays are something most people use multiple times per day, but they can be difficult to use while in motion, whether that's driving a car or hanging the music on your phone while you're running," said Simon Godsill from the university's department of engineering.

英国剑桥大学工程系的西蒙·戈德西尔说：“触摸屏和其他交互式显示屏是大多数人每天频繁使用的物品，但人们可能很难在运动状态中使用，无论是驾驶汽车还是在跑步时用手机播放音乐。”

"We also know that certain pathogens can be transmitted via surfaces, so this technology could help reduce the risk for that type of transmission."

“我们还知道，某些病原体可以通过物品的表面传播，因此这项技术可以帮助降低这种传播风险。”

The technology works by predicting where a user intends to touch the screen as they begin the hand movement towards the screen. A combination of AI and sensors determine the user's intent in real time by also tracking contextual information like the user's profile, environmental conditions and an eye-gaze tracker.

这项技术的工作原理是，在用户开始用手触摸屏幕前，预测他们想要触摸屏幕的哪一区域。人工智能和传感器通过追踪情景信息（比如用户的个人资料、环境状况和眼动跟踪）实时判断用户的意图。

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