The aim of the project is to create an advanced system of interactive virtual reality in the metaverse area, using artificial intelligence technologies. The project will enable monitoring, analysis, self-regulation, optimization of interactive scenarios, control of user interactions, creation of parametric spatial structures and dynamic 3D visualizations providing immersive experiences. The expected results of the project include: 1. Creation of an intelligent space management system in metaverse. 2. Development of innovative measurement methods and devices based on artificial intelligence and sensory systems. 3. Learning-based algorithms with reinforcement for optimizing virtual spaces. 4. Advanced reconstruction algorithms for 3D visualization and interaction monitoring. 5. Wide database of virtual models and parametric description for extensive metaverse systems. 6. An interactive communication interface that allows smooth transitions between the real and virtual worlds. 7. Demonstration metaverse environment with sensory integrations, simulating real production processes. Structure of the Project: The project is divided into three phases: industrial research (15 months), development (6 months) and implementation (9 months). The first stage (industrial research) focused on the development of algorithms, space management in the metaverse, sensor design and tomography. In the second stage (development work) will be the integration of AI algorithms with hardware, as well as the development of intelligent sensors. In the third stage (implementation), it is planned to implement the system in the activities of the applicant. Stepping up Actions: The project consists of three stages, each of which has its own specific goals. The stages combine into a coherent structure, where industrial research leads to development work, which in turn prepares for the implementation stage. Research work: The project includes research on AI algorithms, new measurement methods, sensor system, impedance tomography, reinforcement learning algorithms, metaverse data analysis and parametric modeling. The research works are aimed at achieving advanced solutions for monitoring and optimizing virtual processes. Projects in the area of Information and Communication Technologies: The Frascati manual is taken into account, especially in the context of R&D work related to computer software, eliminating routine activities without affecting scientific or technical progress. Implementation: The implementation of the system is planned by installing, configuring and adapting the solution to share licenses in the cloud as well as generating client licenses. Type of implementation: Staged Scope: 1. Integration of the system with existing processes in user enterprises. 2. Continuum of system optimization based on continuous monitoring and user feedback. 3. Implementation of the system in the first production environments. 4. Analysis of performance in the context of integration with existing industrial systems and identification of possible problems. 5. Creating technical support channels and updating the metaverse system. Scale of implementation: The scale of implementation is adequate to the scope of R&D work as well as the planned sales volume. In order to implement the effects of the project, the applicant will use the space with the necessary furniture equipment described in the grant application under the heading ‘Description of the project management method’. Bearing in mind the reasonableness and reasonableness of the costs incurred, the Applicant took into account only the purchase of the necessary fixed assets and intangible assets to implement the effects of the project. The product that is the subject of the project before the start is at level 2 TRL. TRL level at the beginning of Task 1: 3 TRL level at the end of Task 1: 5 TRL level at the beginning of Task Two: 5 TRL level at the end of Task Two: 8