大家熟悉的按需的世界已经成为过去时。按一下按钮,即可得到服务,这样的模式虽然不错,但我们都知道它正在成为历史。我们希望创造未来,而未来与预知变化和自动化密切相关。我希望所处的环境能够预知我接下来的操作,我希望环境能够自动提供最初预测的服务。与此同时,一场极速且深刻的变革正在进行,涉及我们的生活、消费和移动的方方面面。我们希望创造未来,而未来与预知变化和自动化密切相关。我希望所处的环境能够预知我接下来的操作,我希望环境能够自动提供最初预测的服务。与此同时,一场极速且深刻的变革正在进行,涉及我们的生活、消费和移动的方方面面。在一个能够预知变化并实现自动化的世界中,我想确保自己的隐私范围,还要保证数据安全性。我说过世界正在朝自动化发展,所以我同样要确定所有自动化技术的功能安全性。
无钥匙进入系统几乎已成为汽车的标配。不过在提供省去物理钥匙的便捷性之外,消费者更期待智能进入系统能够实现更多功能,覆盖更丰富的应用场景,并且解决安全隐患。顺应这一趋势,大陆集团将超宽带(UWB)技术融入其智能进入系统。
Indoor positioning is, in many ways, an inside version of the satellite-navigation apps we rely on for outdoor navigation, but with an added twist – it can also be used to help locate people and things.
In this paper we present an overview on the development and standardization of ultra-wideband systems, technical aspects of the IEEE 802.15.4 standard, and improvements made by the 802.15.4z amendment. We also explain the basic workings of a physical access system, the desired seamless access experience and how ultra-wideband technology can enable it. In addition, we briefly compare ultra-wideband to facial recognition access systems. We conclude by mentioning how ultra-wideband technology may extend to other related applications.
Webinar:October 29,2020.(Finished)
Ultra-Wideband (UWB) technology has the unique ability to deliver unprecedented accuracy and security when measuring the distance to a target or determining position, transforming the way people experience connectivity. Computerworld recently said that “One way to think of it is as a radar that can continuously scan an entire room and precisely lock on to an object like a laser beam to discover its location and communicate data.”