无人驾驶是这项技术在现实中另一个用处很大的领域,你可以想象一下它们成群结队飞行的场景,一个飞行员可以利用虚拟现实通过无人机的视野去观察。
That could be a great way to do site surveying for construction, for example, or remote equipment inspection of offshore platforms and other infrastructure that’s hard for people to reach.
例如,这么好的方法可以用于测量施工现场,或者对海上平台和其他人们不容易到达的基础设施进行远程设备检查。
Seamless robotic/human interaction is the ultimate goal of the team working on this tech, because just like how we intuit our own movements and ability to manipulate our environment most effectively, they believe the process should be as smooth when controlling and working with robots.
实现机器人与人的无缝交互是这个团队研究这项技术的终极目标,因为就像我们能凭直觉知道自己的动作和最有效地控制环境的能力,他们认为控制和使用机器人时应该一样顺畅。
Thinking and doing are essentially happening in parallel when we interact with our environment, but when we act through the extension of machines or remote tools, there’s often something lost in translation that results in a steep learning curve and the requirement of lots of training.
我们与环境交互时,思维和动作应该是同时进行的,但我们通过机器或远程工具的扩展操作时,经常会出现偏差,导致学习速度慢,需要进行大量训练。
【麻省理工的新技术:用手势就能控制无人机】相关文章:
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