Transform Your Business with UltiSim Digital Twins

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Imagine a digital mirror of your physical world — a dynamic, 3D virtual environment called a Digital Twin. This cutting-edge tool does more than just mimic real-life objects and processes; it integrates simulation learning, predictive modeling, and real-time data analytics to revolutionize industries from healthcare to manufacturing. 

 Industry Revolutionaries: UltiSim has been at the forefront, transforming strategic planning with our Digital Twin technology. By bridging the gap between theoretical scenarios and real-world data, we empower businesses with unparalleled insights and visual clarity.

Proven Results: We have created Digital Twins for decades, going back to some of the earliest 3D environments used for simulation. Our Digital Twins have been used to transform operations, training, and simulation across a variety of industries.

Healthcare

UltiSim develops digital twin hospitals, allowing multiple users access to simulated, authentic environments for training and process analysis. 

UltiSim created 3dBioMe, a digital twin of the human physiome, with complete patient record data, captured in a personalized virtual 3D avatar. 

The UltiSim Kaizen Hospital Digital Twin is a powerful and dynamic multi-player  game-based platform for hierarchical simulation of every possible healthcare situation, from patient flow and team-based training to device interoperability and systems engineering to detailed models of the human physiome. Because the UltiSim Kaizen hospital platform is a web services-based dynamic system it is easy for users to create simple scripts to dynamically update the system and drive the simulations in real-time. External sims and even live equipment can be connected to the simulation as well. This move from a static, closed game “level” to a dynamic system will be a tremendous leap forward for healthcare simulations at every level.

Manufacturing

For 20 years, UltiSim has been creating digital twins of machines and factories. From manufacturing environments to entire models of 688 attack submarines connected to nuclear propulsion and hydraulics models, we have created multi-user training environments to enable simulated learning and real time data analysis.  

A digital twin simulates the manufacturing process from beginning to end (of a machine or of an entire cycle), providing an accurate representation of the manufacturing process in a 'sandbox' environment. Linked to real-time data and with the option for role-based user settings we call 'Lenses'. 

Urban Planning 

A community is a complex ecosystem to manage, and visualizing all of the outcomes of a big decision is even harder. We model the current state of a community, a team, a school, a neighborhood, or even an individual, in as many dimensions as possible. We simulate the future of 1st, 2nd, and 3rd order consequences and benefits of investments and policies so that you can make informed decisions to benefit your environment and optimize community wellness. 

Oil & Gas
Using UltiSim, Lockheed Martin Virtual World Labs created an immersive and interactive Realtime-3D environment to validate BP’s instructor-led training for “Controlled Work” scenarios at a Liquid Natural Gas (LNG) plant at Point Fortin, in the Republic of Trinidad and Tobago.  “Controlled Work” is a management system applied to procedural based tasks in highly hazardous environments where any deviation from the plan could result in substantial risk to the environment, equipment, and/or personnel.

Digital Twins of oil rigs and subsea production plants enable extensive, and safe, training opportunities for personnel. 

Real-time data analysis within a simulated environment can potentially save lives and mitigate environmental disaster scenarios. 

 A key requirement of a Digital Twin is that it must support any combination of sensors and actuators in the real world and simulation in the digital world, without any change to the Digital Twin system. The user must be capable of replacing any simulated feed with a data feed from a real-world sensor, without change to the system. 

This is encapsulated in what we call the Simulation Equivalence Principle: no client (human user, analytics program, AI engine) of a Digital Twin system should be able to determine from the behavior of the system whether any component is simulated or real. 

The goals of the Simulation Equivalence Principle are threefold: first, to ensure that any simulated system is substituted for a real one without any system artifacts; second, to ensure seamless mix-and-match of simulated and real components; and third, to offer the most transparent environment achievable for the comparison of individual simulation components and their corresponding sensor-based real-world counterparts. 

Embrace the future today. With UltiSim, embark on a journey to harness the full potential of Digital Twins for your business. Contact us for a free 30-minute consultation and let's explore how we can create a unique Digital Twin solution to drive your business objectives.