Date
Thursday May 23, 2024 from 3:00 PM to 5:30 PMLocation
TU/e campus | Neuron 0.262Organizer
High Tech Systems CenterPrice
FreeBuilding
NeuronSimulation and Modeling for Digital Twinning
We warmly invite you for the HTSC Research Meet
"Simulation and Modeling for Digital Twinning"
The rise of digital twinning as an integral part of the system lifecycle influences the role of simulation. What would be the influence of digital twinning on current simulations, and what can be the relevance of simulation for digital twinning? In this Research Meet we explore experiences with simulation in various scopes and phases of development processes.
Organizer: Marc Hamilton
Date: May 23, 2024
Time: 15:00-17:30, doors open from 14:30, drinks until 18:00
Place: TU Eindhoven
Building: Neuron (navigation Laplace 32)
Room: 0.262
Sign up before May 15, 2024!
Speakers:
- Sofia Calero (TU/e Applied Physics and Science Education): 'Inventing materials to meet today's energy and environmental challenges'.
- Siebe Rooijakkers (Damen Shipyards): 'Navigating Sustainability: The Digital Twin Journey in Maritime Industry'.
- Ion Barosan (TU/e Mathematics & Computer Science): theme/title will follow
- Phuong Nguyen/Nilufar Neyestani (TU/e Electrical Engineering): ‘Real-time Digital Twin for Smart Grid Applications’
Sofia Calero
Title: Inventing materials to meet today's energy and environmental challenges
"In September 2000, we launched the Materials Modelling and Simulation (MSM) Group at the Department of Applied Physics, Eindhoven University of Technology. This group uses high-performance computers to simulate materials that can revolutionize renewable energy and green technology. In close collaboration with industry and experimentalists, we develop and apply both simulation and Deep Learning methodology, jointly encompassing a comprehensive multiscale approach to study complex materials and molecules from the atomistic to the nanoscale. The systems we are currently focusing on include, among others, porous crystalline materials, novel semiconductors, and hybrid nanomaterials. One of the strengths of our group is that we are bridging the gap between experimentation and simulation, thus predicting the performance of the materials and guiding experimentalists and industry to the optimal scenarios."
Siebe Rooijakkers
Title: Navigating Sustainability: The Digital Twin Journey in Maritime Industry
"Discover how Damen Shipyards applies simulation, remote monitoring and data science to achieve its ambitions to build sustainable ships and enable ship operators to excel in their operation. Learn how various simulations, such as CFD and analysis of innovative propulsion drivetrains drive the product development process. Explore how the Damen Triton vessel IoT solution captures operational data needed for detailed analysis.
It will be shown how these technologies are applied to the new series of waterbuses with hybrid propulsion, sailing in the Rotterdam-Drechtsteden area, to improve its performance after being in operation.
Challenges and strategies in simulation model management, emphasizing the importance of protection of intellectual property, clear documentation and verification and validation will be discussed. Also the impact of the increasing demand for lifecycle (performance) assessments on the required type of simulations will be addressed."
High Tech Systems Center
In next-generation high-tech and mechatronic systems, extreme functionalities and performance requirements will be realized by using a model-based multi-physics systems approach.
New sensing technologies and actuator designs for multi-physics processes (forces, flows, temperatures, acoustics, optics) will need to be integrated with and used by distributed on-line model-based control and optimization tools. The control systems are adaptive, auto-tuned, are implemented in optimized hardware and software architectures, and use effective (wireless) communication.