This paper deals with interactive simulation in virtual reality (VR) using the MoreViz module and Tecnomatix software. The aim of the simulation is to demonstrate the efficiency and flexibility of modern work processes in a dynamic environment. The MoreViz module provides a number of features such as marker, measure and paint that allow users to actively interact with the virtual environment. These tools are crucial for accurately marking objects, measuring distances, and visually representing ideas and notes. Practical applications and benefits of this simulation are discussed, as well as the impact of VR technology on improving collaboration and communication within a team. The article provides a thorough description of the hardware and software used for the simulation to work properly, as well as the procedure for installing the necessary modules for both the Oculust Quest 2 headset and Tecnomatix software. From the simulation result, the authors conclude that the integration of the MoreViz module and Tecnomatix software into the workflows significantly improves efficiency, accuracy, and overall productivity. This approach opens up new possibilities for the planning and optimization of industrial operations. The article can be a source of information, offering a contribution in the visualization and optimization of processes in VR. It can also serve as a primer to effectively demonstrate the implementation of VR in industry.

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Interactive Simulation in VR Using the MoreViz Module

  • Ján Ivan,
  • Petr Baron,
  • Oleksandr Pivtorak

摘要

This paper deals with interactive simulation in virtual reality (VR) using the MoreViz module and Tecnomatix software. The aim of the simulation is to demonstrate the efficiency and flexibility of modern work processes in a dynamic environment. The MoreViz module provides a number of features such as marker, measure and paint that allow users to actively interact with the virtual environment. These tools are crucial for accurately marking objects, measuring distances, and visually representing ideas and notes. Practical applications and benefits of this simulation are discussed, as well as the impact of VR technology on improving collaboration and communication within a team. The article provides a thorough description of the hardware and software used for the simulation to work properly, as well as the procedure for installing the necessary modules for both the Oculust Quest 2 headset and Tecnomatix software. From the simulation result, the authors conclude that the integration of the MoreViz module and Tecnomatix software into the workflows significantly improves efficiency, accuracy, and overall productivity. This approach opens up new possibilities for the planning and optimization of industrial operations. The article can be a source of information, offering a contribution in the visualization and optimization of processes in VR. It can also serve as a primer to effectively demonstrate the implementation of VR in industry.