Hardware Design & Mechatronics Integration

• Integration of mechanical architecture, electronic hardware, and embedded mechatronics to create smart, responsive physical systems capable of complex automation and precise control.
• Iterative hardware development focused on optimizing the interaction between physical mechanisms and the embedded software.

Optics & Advanced Sensor Integration

• Prototype design of advanced optical systems, including interferometry and high-precision metrology equipment, engineered for specialized industrial and commercial applications.
• Integration of various sensor technologies, such as motion, temperature, and fiber optic sensors, capturing critical physical data with high precision in demanding industrial settings.
• Designing custom signal conditioning circuits and multi-sensor fusion architectures that extract precise, noise-filtered data for industrial control systems.

Medical Hardware Engineering

• Engineering specialized hardware and mechatronic components for medical devices, prioritizing high reliability, precision, and practical operation for healthcare products.
• Designing custom, sensor-driven automation systems for medical diagnostics and laboratory testing equipment. We replace manual workflows with smart hardware solutions that increase throughput and reduce human error in healthcare applications.

Simulation & Synthetic Data Generation

• Detailed Finite Element Analysis (FEA) to digitally simulate, test, and optimize physical designs under complex mechanical, thermal, and dynamic stresses before the first physical prototype is manufactured.
• Synthetic dataset generation and physics-based simulation. We create accurate digital twins that simulate physical dynamics, system kinematics, and sensor outputs, providing highly realistic training data for machine learning and computer vision systems.