Xiaomi introduced its first virtual reality glasses
Xiaomi introduced its glasses, its first step into the augmented reality (AR) scene, at the MWC 2023 event.
Xiaomi, one of the world's leading consumer electronics and smart manufacturing companies, signed a new project with its brand new concept at the Mobile World Congress (MWC) 2023 yesterday. Many companies have introduced their products at the event and especially Xiaomi's virtual glasses have gotten attention. This innovation is Xiaomi's first wireless AR glasses to offer a retina-level adaptive display that takes advantage of distributed computing and adapts to the lighting environment.
Xiaomi's first glasses will exceed your expectations
Boasting a retina-level near-eye display for AR glasses, Xiaomi Wireless AR Glass Discovery Edition delivers a truly immersive visual experience. Moreover, our self-developed Xiaomi AR Gesture Control empowers effortless control between virtual and real space. pic.twitter.com/EipqBWxkpW
— Lei Jun (@leijun) February 27, 2023
Xiaomi Wireless AR Glass Discovery Edition is designed for end users with individual experience in mind. Weighing 126g, the glasses are built on the Snapdragon® XR2 Gen 1 Platform while featuring Xiaomi's proprietary low-latency communication link. The Snapdragon Spaces™ XR Developer Platform powered glasses offer a low wireless latency of up to 3ms between the smartphone and the glasses, offering very good latency and hardware values.
Xiaomi Wireless AR Glass Discovery Edition features a lightweight yet sturdy design with a magnesium-lithium alloy structure and carbon fiber materials. Its electrochromic lenses allow for seamless access to reality and the virtual world at a single click. pic.twitter.com/FWANebc4Gp
— Lei Jun (@leijun) February 27, 2023
The optical module design of AR glasses provides a strong foundation for AR applications, producing clear and bright images with up to 1200nit intraocular brightness while minimizing light loss. Xiaomi Wireless AR Glass also features innovative self-exploring micro-motion interaction, which provides ultra-precise pure motion interaction with one hand.
