Simulation-based decision support systems have become indispensable tools in the defense industry for minimizing operational risks and optimizing decision-making processes.
Complex operational scenarios can be tested in simulated environments, allowing uncertainties that may arise during real-world missions to be analyzed in advance. This enables commanders and decision-makers to foresee potential outcomes and develop more accurate strategies.
STM develops advanced technologies in the field of decision support at both strategic and tactical levels. Leveraging its expertise in modeling and simulation, artificial intelligence, analytics, and big data, STM contributes to enhancing the ability of Türkiye, NATO, and allied nations to comprehend complex situations and make informed decisions. Furthermore, STM designs simulation solutions with engineering-level resolution, enabling the assessment of combat effectiveness of combat platforms within integrated synthetic tactical environments.
STM integrates simulation technologies with real-time data analytics and AI algorithms to deliver high accuracy and speed in decision support processes. The simulation platforms developed by STM offer solutions applicable to land, naval, air, and cyber operational domains. These simulation models allow for detailed analyses of platform performances, logistics processes, and mission planning under various threat scenarios.
Through these systems, potential operational risks are mitigated, resource utilization is optimized, and the execution of critical decisions on the field becomes more reliable. STM enables users to explore different operational options in simulated environments, providing significant value, particularly in training and mission preparation processes. For STM, simulation-based decision support is not merely an analysis tool but a cornerstone capability for strategic planning.
STM’sSimulation-Based Decision Support System (SIMDES)is a simulation-based software developed for designing, executing, and analyzing various scenarios to evaluate combat effectiveness at tactical and operational levels.
The Warfare Effectiveness Analysis Model (GEMED),on the other hand, is a simulation system with engineering-level resolution designed to measure the combat effectiveness of combat platforms within an integrated synthetic tactical environment. Using developed scenarios, the model can be employed for combat effectiveness assessments, ship design and modernization, procurement decision support, and tactical development purposes. GEMED strengthens the Turkish Naval Forces’ capabilities in analysis, procurement, systems, and tactical development, with project acceptance successfully completed in 2023.