Naviworks unveils synthetic data and intelligent command control ST²E for AI weapon systems at I/ITSEC
Nov 28, 2025
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- From December 1st to 4th in Orlando, USA...Participation for 3 consecutive years in recognition of technology
- Addressing future battlefield vulnerabilities such as lack of actual combat data and lack of AI-based power management environment
Naviworks, an AI-based digital twin company, announced on the 28th that it will participate in 'I/ITSEC 2025', the world's largest military simulation exhibition, to unveil the latest synthetic data generation and intelligent battlefield system construction technology that will lead the operation of AI weapons systems in the future.
Military, defense, education, and training simulation companies from all over the world will participate in the 'I/ITSEC' held in Orlando, U.S., from December 1 to 4 to share the latest training systems and directions for the development of defense technology.
In recognition of its technological competitiveness, Naviworks will participate for three consecutive years, and this year, it will focus on the innovation of the synthetic data generation platform ST²E developed based on its digital twin integrated control platform METAIEYES and common synthetic environment (CSE) platform VTB-X.
The Synthetic Tactical & Training Environment (ST²E)' was developed to compensate for the limitations of the lack of actual combat data, the lack of advanced power operation environment, and the absence of intelligent decision-making support systems, which have been fundamental issues in the future battlefield where human-in-human complex systems are spreading.
Rather than simply generating data, it aims to build an advanced AI battlefield ecosystem that can replace the combat activities performed by soldiers, soldiers, and combatants on the actual battlefield.
To this end, 3D models of actual weapon systems and battlefield elements were combined on precise maps and altitude information to implement a synthetic battlefield environment that is almost the same as reality.
In addition, it has sufficient quality to learn core capabilities such as Pia identification, object recognition, and tactical judgment required by next-generation weapons systems such as unmanned drones, and substantially supplemented problems such as lack of actual data.
Through this, digital twin-based weapon system simulation functions can be used to data reactions, variables, and tactical changes that occur in the actual operation process, and large-scale language model (LLM)-based battlefield scenario automatic generation technology can be added to configure various threat situations and mission environments in real time.
These functions directly contribute to the development of AI weapons systems and the improvement of the accuracy of command decision support systems, and position ST²E as an intelligent platform that innovates the way future weapons systems operate, not just synthetic data tools.
A Naviworks official said, `It will demonstrate the capabilities of K-dissipation simulation in I/ITSEC, where the world's best technologies compete.' `As the spread of unmanned complex systems and AI weapons systems accelerates, synthetic data and intelligent battlefield ecosystem creation technologies will be the main competitive edge of future battlefield training.'
This article was translated by Naver AI translator.
