HTSC Research Meet

Date:
12 December
Time:
15:00 - 18:00
Location:
TU/e campus site, Ceres building, room 0.31
Organizer:
TU/e High Tech Systems Center

Research is the central theme of the Research Meet. Through a presentation by industry and short presentations ('pitches'), industry and TU/e scientists meet and talk about their research projects, what it includes, what the ambitions are and how this research could help society.

Program
15:00Welcome 
15:05News on HTSC
15:10

Virtualisation: engineering or engineering fiction?
Mark van den Brand (TU/e and HTSC)

Benno Beuting (Cordis
Eugen Schindler (OCÉ)

16:00Break
16:10 

Research Pitches

17:00Networking & drinks
18:00 End

Virtualisation: engineering or engineering fiction?

The development of high tech systems has become extremely expensive and time consuming. Developing prototypes is too expensive and are eventually sold as products. The traditional way of working where first the hardware is being developed and then the software is being produced and tested on the hardware is no longer possible.

Hardware and software needs to be developed in parallel. The testing of the software needs to be done in a simulation environment where a small component is "virtualised". The virtualisation of large components or an entire machine is possible but hardly explored. There are success stories, for instance the virtualisation of the paper flow in the new generation of OCÉ printers. There are a number of unanswered questions. Is it possible to develop virtual components without having physical components first? What is the goal of virtual components? Is it possible to have virtual and physical components in parallel? How to develop virtual components in an efficient way? Are virtual components sufficiently precise?

Research Pitches:

  • Model-based Approach for thermo-fluidic aspects in inkjet printing 
    Amritam Das (Electrical Engineering)
  • Model order reduction for linear parameter-varying systems by Riemannian optimization 
    Xingang Cao (Mathematics & Computer Science)
  • Plasma assisted contamination control for ultra-clean vacuum systems 
    Boy van Minderhout (Applied Physics)
  • Ultra-clean low mass wafer manipulator design
    Rick Baade (Mechanical Engineering)
  • Modeling and design optimization of FIV in liquid cooling circuits of high-precision systems 
    Remco van de Meerendonk (Mechanical Engineering)
  • Characterization of flow-induced excitation forces in liquid cooling circuits of high-precision systems 
    Igor Rodrigues (Mechanical Engineering)