Project Overview

UTI is a virtual reality application developed using Unreal Engine that allows users to interact with a virtual intensive care room. The application is designed to simulate a real-world ICU environment, allowing healthcare professionals and medical students to practice their skills and procedures in a safe and controlled environment. UTI provides a realistic and immersive experience that enables users to navigate and interact with different aspects of the ICU environment. Users can practice various procedures such as inserting IV lines, managing ventilators, and responding to emergency situations. They can also explore the different pieces of equipment and machines present in an ICU, and learn how to use them effectively.

The virtual reality environment of UTI is highly detailed, with accurate representations of the equipment, patient monitors, and other devices commonly found in ICUs. The application allows users to interact with these devices and equipment in a way that closely mirrors real-life scenarios. UTI is designed to improve the learning experience for healthcare professionals and medical students by providing a realistic and safe environment for them to practice their skills. It also offers a cost-effective alternative to traditional training methods, which often involve expensive and time-consuming simulations or real-life practice scenarios. Overall, UTI is an innovative virtual reality application that offers a unique and valuable training experience for healthcare professionals and medical students looking to develop their skills in ICU environments.

Project Process

The development of VICU Simulator, a virtual reality application that allows users to interact with a virtual intensive care room, was a complex and involved process. The application was developed using the powerful and flexible game development engine, Unreal Engine. The development process began with a detailed analysis of the requirements of the application. The team spent time researching real-life ICU environments, and analyzing the specific procedures and tasks that would need to be simulated within the application. This included gathering feedback from medical professionals and experts in the field to ensure accuracy and realism.

Once the requirements were established, the team began creating 3D models of the various equipment and devices used in an ICU. These models were then integrated into the virtual environment to create a fully interactive simulation. The team also developed a user interface that would allow users to navigate the virtual environment and interact with the various devices and equipment. This involved creating intuitive controls and interfaces that would be easy to use for both medical professionals and students. Throughout the development process, the team conducted extensive testing and feedback gathering to ensure the application met the required standards. This included beta testing with medical professionals and students, as well as incorporating feedback from the wider community.

The result of this development process is a powerful and realistic virtual reality application that allows medical professionals and students to practice and develop their skills in a safe and controlled environment. VICU Simulator offers a unique and valuable learning experience that can help to improve patient outcomes and increase confidence in medical professionals.