Edgar Cervantes / Android Authority
TL;DR
- Google seems to be testing ultra-wideband (UWB) know-how on Chromebooks.
- The corporate is presently testing a couple of totally different use instances for the know-how.
Though ultra-wideband (UWB) has been round for some time, it’s simply now beginning for use in additional gadgets. In reality, the Pixel Watch 2 is rumored to be getting a UWB module. And that may not be the one new Google gadget getting the know-how. The corporate could also be planning to begin placing UWB in Chromebooks as nicely.
As found by Chrome Unboxed, references to UWB have been present in Chromium Gerrit — an open-source, web-based code collaboration device the place builders can evaluation modifications on supply code. It seems that Google is presently testing the know-how on Chromebooks.
In accordance with the outlet, Google is particularly testing a couple of use instances for the know-how. These use instances embrace Chromebook-to-Chromebook connections, Chromebook-to-phone connections, and variations of these pairings with a number of customers as an alternative of one-to-one connections. Because it’s simply within the testing section, it may very well be some time earlier than we truly see a Chromebook with UWB.
In case you aren’t acquainted with UWB, it’s a short-range wi-fi communication know-how that’s energy-efficient, versatile, and cost-efficient. However extra importantly, it may possibly switch information rapidly — from 4Mbps to 675Mbps or extra — and permits for extremely correct location monitoring all the way down to the centimeter. It’s presently used for keyless entry, automation, asset monitoring, and extra and seems largely in telephones and tracker tags.
Having such know-how in a Chromebook might doubtlessly open up new potentialities with regards to connections. Because the publication factors out, a shared drive in a room may very well be rapidly and seamlessly accessed by a number of folks with out the necessity for cables with UWB. Or you possibly can mirror an app with zero lag.