Dynamic Systems Design
Motion and time-varying behavior under influence of forces is studied. The focus of dynamic system design is to ensure that the system operates efficiently, stably, and reliably when subjected to dynamic conditions such as changing loads, speeds, or environmental factors
Time Domain Analysis: Helping our expert engineers to understand how the system behaves with respect to time-based changes in inputs or conditions. It is a crucial aspect of designing systems that need to operate predictably under dynamic conditions, such as control systems, vibrating structures, or any time-dependent mechanical processes
Mathematical Modelling: We use mathematical representation of physical phenomenon to explain complex systems and relationships between forces, motions and constraints for highly demanding applications. Our mathematical models provide a framework for optimizing system design where our engineers can define objective functions (e.g., minimizing weight, maximizing strength, reducing energy consumption) and constraints (e.g., material properties, dimensional limits) to explore the best design choices
Optimization & Prototyping: Our team can perform the topology optimization for weight reduction and performance enhancement for demanding customer applications. For highly critical product designs we also carry out prototyping of products to validate the design and optimize, where required.
Dynamic Simulation: Dynamic simulation helps our engineers to understand the system behaviors before a physical system is built, allowing for better decision-making, optimization, and problem-solving throughout the design process