Loading
Las Vegas, Today – CES 2024, the highly anticipated global technology showcase, kicked off in grand style, and Mojie, at the forefront of AR technological innovation, made a remarkable appearance at booth 1501 in CES Westgate. The exhibition showcased Mojie’s robust technological capabilities in the consumer level AR sector, covering areas such as key components, customized design and development services, and total solution offerings, attracting a multitude of attendees, media and tech enthusiasts, earning widespread acclaim.
Breakthrough in Technological Innovation Paves the Way for the Era of Lightweight AR Glasses
Since its establishment, Mojie has been continuously advancing technological innovation and actively promoting the ultra lightweight consumer level AR glasses with mass-productive resin diffractive waveguide as the core.
At CES 2024, Mojie brought a variety of self-developed key components in near-eye display system, presenting its technological achievements to global audience. In the field of resin diffractive waveguide, both monochromatic and polychromatic waveguides exhibited by Mojie feature remarkable advantages such as lightweight, shock resistant, refractive lenses compatible, and mass production capable. In the field of light engine, Mojie showcased the innovative journey of its four generations of self-developed Micro LED light engines, with the latest generation boasting a volume of only 0.3cc. The excellence achieved in key indicators such as brightness, clarity, and contrast further enhances the performance of consumer level AR glasses, and provides end users with superior visual experiences.
Building Full-Stack AR Capabilities to Continuously Empower Industrial Customers
Based on the synergy of key components and relentless breakthroughs in mass production processes, Mojie has been introducing the groundbreaking and ultra lightweight AR solutions to the market since 2022, and for the first time today, to CES visitors. In its pop-up showroom, AR glasses based on binocular resin diffractive waveguide and Micro LED, which balance a stylish and trendy appearance with powerful functions, have become the focus of attention. This demonstrates Mojie’s full-stack capabilities from technology research and development, product design to manufacturing, to continuously empowering industry customers and jointly create consumer level AR glasses that leads the industry.
AR Product Customization Services Ushers in the Future Technology Trend
In the customization area, Mojie also demonstrates the perfect integration of cutting-edge technology and fashion aesthetics through a series of innovative lightweight AR glasses designs. Mojie’s customized products and services can not only meet the needs of industry customers in different fields, but also cover the personalized needs of global end users in multiple scenarios, redefining the future lifestyle.
Mojie’s splendid appearance at CES 2024 not only demonstrates its outstanding R&D capabilities in consumer level AR glasses, but also showcases its exploration towards the integration between cutting-edge technologies and lifestyles. In the future, Mojie will enhance its innovation capabilities, explore collaborative innovations with more partners, and drive the entire industry to higher levels. Looking globally, Mojie will actively integrate into the world’s technological development trends, making new contributions to the popularization of consumer level AR glasses.
Organization: Mojie
Contact Person: Kevin Huang
Website: https://meta-bounds.com/en/index.aspx
Email: Send Email
Country: China
Release Id: 1001248787
The post Mojie Unveils Groundbreaking Innovations at CES 2024, Paving the Way for a New Era in Consumer Level AR Glass appeared first on King NewsWire. It is provided by a third-party content provider. King Newswire makes no warranties or representations in connection with it.
Disclaimer: The views, recommendations, and opinions expressed in this content belong solely to the third-party experts. This site was not involved in the writing and production of this article.