Simulation-based systems support both operator training and technical testing across various industrial fields—offering accurate evaluation, skill development, and system validation in controlled environments.
Platform-Based Solutions for Precision Testing
Explore how advanced simulation technologies enhance operator training and system testing across sectors. These solutions combine high-fidelity environments with scalable platforms—enabling precise evaluation, repeatable testing, and focused skill development.
Motion test systems replicate real-world dynamics to evaluate how vehicles and components behave under realistic operating conditions.
By simulating movement, vibration, and driving environments, these platforms help assess performance, durability, and system response—playing a key role in product testing and development across automotive, aerospace, and defense sectors.
Driver-in-the-Loop (DIL) simulators provide a controlled environment for both driver training and vehicle system testing under realistic automotive conditions.
These platforms enable the evaluation of handling, safety, and dynamic behavior while supporting driver-involved development of autonomous and advanced mobility systems.
Military vehicle simulators provide a controlled environment to train personnel in tactical operations, route navigation, and battlefield coordination.
These systems improve decision-making, vehicle handling, and operational readiness—supporting mission planning, crew training, and tactical response under realistic combat scenarios.
Heavy equipment simulators provide a realistic and safe environment for operator skill development in construction and logistics fields.
These systems simulate real machine controls and terrain interactions—supporting training in excavation, lifting, and load handling operations with high fidelity and repeatability.
3DOF motion simulators offer a compact solution for evaluating vehicle behavior and training operators in controlled, repeatable conditions.
These platforms simulate real-time pitch, roll, and heave responses—supporting system validation, vehicle dynamics studies, and performance-based training in automotive and research sectors.