Our goal is to provide simulation infrastructures for use in test and training environments in areas such as air defense, maritime surveillance, coastal safety, area, and border security.
In the defense industry, simulation technologies have a wide range of applications. Flexibility and adherence to international standards are critical for the infrastructure to be used.
Our uniquely developed real-time radar simulators are offered for use in performance evaluation and training environments. Similarly, they operate in real-time in test and integration environments, serving as radar digital twins.
We develop radar simulators compatible with NATO's STANAG-4603 standard, defined by the High-Level Architecture (HLA). Thanks to this standard-based distributed simulation architecture, we can integrate with various third-party applications.
To provide an end-to-end simulation environment, we develop target simulations with six degrees of freedom and environmental simulation software to simulate conditions like rain and wind.
Testing algorithms and software developed for defense systems under real-world scenarios is a complex and costly process. In most cases, it is impossible to create the desired scene or scenario in a real-world environment.
With our uniquely developed Software-In-The-Loop (SIL) and Hardware-In-The-Loop (HIL) testing infrastructure, we enable real-time testing of embedded software and algorithms used in defense systems.
Thanks to the flexible integration capabilities of our software, we enable laboratory testing of embedded software components such as algorithm and signal processing and control software by bringing together target modeling (fighter jets, missiles/rockets, corvettes/ships, etc.), environment modeling (sea state, rain, wind, etc.), radar simulators, and third-party components.
Complex defense systems must be operated by highly skilled operators. In many cases, operator training involves costly and lengthy processes. Training simulators are developed to conduct operator training for defense devices in classroom environments and evaluate the results. This is expected to shorten training processes and reduce costs.
We develop various digital twin simulators for use in training simulation environments.
In our radar simulators, we develop models suitable for all training scenarios such as scenario-based and error modeling for radars to be used in training. We develop or integrate target and environment models to be used in training environments with third-party software.
With all of this, we enable the training of expert operators who have experienced crises, malfunctions, errors, etc., for defense systems.