ARway.ai pleased to the successful deployment of an innovative AR navigation system within the 5G campus network built by Deutsche Telekom AG on the Brandenburg University of Applied Sciences campus in Germany. The fully funded partnership with the Brandenburg University of Applied Sciences and its prestigious institute ifii (institute for innovation and information management) originally announced in October 2023, revolutionizes the way faculty and visitors experience the university campus, providing a seamless and intuitive AR experience and AR-powered navigation. As part of their 2024 roadmap, the university will implement, evaluate and publish research on over 20 different use cases with ARway's technology, highlighting the depth of this collaboration.

Key components of deployment include: State-of-the-art 5G technology campus: With Deutsche Telekom, ARway is leading the development of a state-of-the-art 5G testbed on the university campus. This will ensure high-speed connectivity and low-latency data transmission, enabling advanced AR capabilities. This deployment integrates cutting-edge 5G and WiFi 6 technologies, marking a new era of digital innovation and user experience.

The utilization of the latest 5G technology in the campus network built by the Deutsche Telekom to provide seamless, high-speed, and real-time navigation and information services. The collaboration positions the Brandenburg University of Applied Sciences, Deutsche Telekom and ARway at the forefront of technological advancement in educational environments. Prototype Development: ARway has successfully built and deployed a cutting-edge prototype of AR navigation for the Brandenburg University of Applied Sciences campus.

This prototype has successfully served as a model for future campus-wide implementation that will roll-out throughout 2024. Research and Evaluation of AR Navigation: With the deployment complete, Brandenburg University of Applied Sciences is launching research projects focused on user experiences in AR navigation, supported by the superior bandwidth and lower latency of 5G and WiFi 6 technologies. This includes seamless transitions between indoor and outdoor environments, ensuring a user-friendly experience.

The findings from these projects are expected to be shared globally, contributing significantly to the body of knowledge in AR applications and digital navigation.