System Dynamics and Control

We develop control strategies by analyzing the dynamic behavior of mechanical systems.

Our Services:

System Modeling

Control System Design

Performance Optimization

Smart Damping Systems

Our system dynamics and control services focus on understanding the dynamic behavior of mechanical and mechatronic systems to develop control strategies that ensure desired performance criteria. The process begins by creating mathematical models of complex systems, deriving differential equations that define the system's dynamic behavior, and obtaining transfer functions. On these models, we analyze the system's stability, controllability, and observability. Based on the results, various strategies are designed, from classical control methods (PID, LQR, etc.) to advanced control techniques (adaptive control, robust control, etc.). Particularly in vibration control, we develop active and semi-active damping systems that work with real-time sensor data, in addition to passive damping methods. These systems instantly detect unwanted vibrations in structures and machines, producing appropriate control forces to effectively reduce vibrations. In industrial applications, intelligent control systems that continuously monitor system status and can diagnose failures reduce maintenance costs while increasing system reliability and efficiency.