In high-tech products and systems, problems are never restricted to only one domain. For example, an electromagnetic field may cause heat dissipation, which in turn can induce mechanical distortion. Therefore, analysis requires a multi-domain approach toward a combination of physical phenomena – multiphysics. We apply first-principle analytics, computer models and experimental methods to analyse complex engineering problems. For extensive model studies we use high-performance hardware and advanced software. We have in-house experimental lab and test facilities, where we (produce and) investigate proof-of-principle set-ups, functional models and prototypes.
- analytics, simulation, experiment
- fluid dynamics, thermal engineering, electromagnetism, structural mechanics, nuclear physics, vacuum engineering, acoustics & vibrations
- CFD, FEM, CEM, LEM, Monte Carlo
- Ansys, Comsol Multiphysics, Fluent, CFX, FLUKA, SimulationX, Matlab/Simulink
For analysis and simulation, we use established techniques and software products. Our expertise lies in solving complex engineering problems, not in producing sophisticated code. When required, we can extend known methods with dedicated applications. Also, we have developed a lumped-element modelling (LEM) suite, dedicated for thermodynamics (including cryogenics), which includes off-the-shelf and proprietary components with detailed specifications. We use simulation techniques such as FEM and CFD to predict the accuracy and stability of entire systems, even before a first prototype has been realized.
tightening requirements and upcoming challenges.
Multiphysics analysis is becoming more and more challenging. Product and system requirements continue to tighten in terms of dynamic performance, thermal management, magnetic shielding, etc. Upcoming challenges include the energy transition, calling for the analysis of new energy production, conversion and storage processes, quantum technology, with its own cooling problems, and noise control. Analysis of a product’s noise generation can provide solutions for upgrading user experience and preventing noise-signalled degradation – analysis leading to improvement.
data science & machine learning
The vast domain of AI is rapidly entering the high-tech industry…Read More
In electronic and electrical engineering, we develop multidisciplinary solutions for …Read More
In high-tech product development, industrial design engineering revolves …Read More
High-end product and system development heavily relies on prototyping and manufacturing ..Read More
In mechanical engineering, we push the boundaries of what is physically feasible. Time …Read More
Mechatronics embodies the integration of mechanics, electronics, software and control…Read More
optics & vision
High-tech and industrial system development often relies on proper optics and vision …Read More
software architecture & design
In our multidisciplinary systems engineering approach, software …Read More
Synthetic training data for machine vision
Synthetic training data provides near-infinite environmental variables for your data set..Read More
A high-tech development project starts with fundamentally understanding the customer’s …Read More