6G-PATH
The 6G-PATH project aims to take a prominent role in the development and integration of new and improved tools from EU companies with 5G/6G. To achieve this, 7 testbeds will be included in the project that will be used by 10 use cases spread across four key areas: Health, Education, Smart Cities, and Agriculture.
The goal of the 6G-PATH project is to contribute to the development and integration of new and improved tools and products while relevant KPIs and KVIs are measured. It will involve telecommunications and cloud service providers, major industrial partners, European small and medium-sized enterprises, as well as several universities and research institutes. 6G-PATH plans to collaborate closely with other ongoing/starting Stream-B and Stream-C projects where the innovations achieved by partners in other projects can be implemented and further tested by the project's pool of use cases and open calls, while sharing results to consolidate the innovation being made.
6G-Path at ¹û¶³´«Ã½s university
The aim of the use case within the project that will be implemented at ¹û¶³´«Ã½ is to enable students to participate in medical scenarios remotely via Virtual Reality (VR), where reconstructed scenes will be streamed directly to the students’ VR glasses. Two locations will communicate with each other using 5G/6G, one of which could be an ambulance handling a medical emergency, and the training site, where students participate in the emergency situation through XR and VR. The medical site will be equipped with both hardware and software to capture the scenario in a reaslistic way. The aim of 6G-PATH is to promote the development and integration of 5G/6G technology in several concrete use cases. It will evaluate both technical performance and how the new solutions can contribute to user value. It creates an exciting opportunity for computer science to join forces with nursing science to assess how XR and 5G/6G technology can contribute to enhancing teaching in the medical and health sciences
6G-PATH project has received funding from the Smart Networks and Services Joint Undertaking (SNS JU) under the European Union’s Horizon Europe research and innovation programme under Grant Agreement No 101139172. Co-funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union.