XR DIGITAL TWINS
Learning through experience
Digital twins are virtual replicas of real-world environments and objects experienced through VR headsets.
Once a user is in the virtual environment, they learn by interacting with complex 3D models which replicate the functionality of their physical counterparts.
By navigating through the virtual space users engage in a range of scenarios which helps to build confidence in key skills and processes.
Integrated animations and product simulations give further insight into points-of-difference, allowing users to make informed decisions about products.
Reasons to use digital twins
Risk-free learning
Digital twins give healthcare professionals the opportunity to learn and practise without the fear of making mistakes. Skills and processes can be continuously repeated to build competence and confidence.
Sustainability gains
Eliminate the need to travel for training by adopting greener training with a reduced carbon footprint. Provide wider access to training across your organisation and increased flexibility to suit trainee schedules.
Enhanced training
Hands-on learning in Virtual Reality has been shown to increase engagement and knowledge retention compared with traditional training modes and leads to improved performance in the real-world.
Data analytics
Usage data provides valuable insights, enabling providers to tailor training programmes to specific needs, track trainee progress and make informed decisions about marketing and product development.
From real to virtual
Digital twins are created through a combination of data collection, modelling and simulation techniques. The process begins with gathering extensive data on the dimensions of the physical environment or object using existing plans as well as sensors and cameras.
This data is then used to build precise 3D models, capturing every detail of the real-world counterpart. At Revolve Labs, our multidisciplinary approach combines expertise in data science, 3D modelling, simulation and visualisation to ensure these models are accurate.
Advanced simulation techniques are employed to replicate the functionality and behaviour of the physical assets, allowing for realistic interaction by users. The result is a highly detailed and interactive virtual replica that mirrors the real-world environment or object, providing an immersive environment for training and showcasing products.