Project Details
Description
The aim of this project is to develop a cutting-edge R&D structure in neuromorphic
neuromorphic engineering, building on existing expertise at the University of Liège
University of Liège, imec and the VUB, focusing on fundamental research and its
industrialisation for the benefit of society.
The scientific challenges of the project focus on an in-depth understanding of
the adaptability and flexibility of biological neural systems, i.e.
understanding how to describe their essence accurately and how to reproduce
these properties in artificial intelligence (AI) systems, so that they can excel in supporting
systems, so that they can excel in supporting human societies in the near future
and sustainably over the long term. The development of embodied artificial intelligence
will meet the challenges of the future, by enabling the development of collaborative robots
low-energy collaborative robots and computers that best serve industry, humans
industry, humans and their environments.
We are targeting AI systems designed to interact with humans, be
energy-efficient, flexible, and capable of operating for long periods of time
without wasting natural resources on raw materials.
neuromorphic engineering, building on existing expertise at the University of Liège
University of Liège, imec and the VUB, focusing on fundamental research and its
industrialisation for the benefit of society.
The scientific challenges of the project focus on an in-depth understanding of
the adaptability and flexibility of biological neural systems, i.e.
understanding how to describe their essence accurately and how to reproduce
these properties in artificial intelligence (AI) systems, so that they can excel in supporting
systems, so that they can excel in supporting human societies in the near future
and sustainably over the long term. The development of embodied artificial intelligence
will meet the challenges of the future, by enabling the development of collaborative robots
low-energy collaborative robots and computers that best serve industry, humans
industry, humans and their environments.
We are targeting AI systems designed to interact with humans, be
energy-efficient, flexible, and capable of operating for long periods of time
without wasting natural resources on raw materials.
| Short title or EU acronym | NEMODEI2 |
|---|---|
| Acronym | FOD174 |
| Status | Active |
| Effective start/end date | 1/10/23 → 31/10/26 |
Keywords
- Neuromorphic design
- embodied intelligence
Flemish discipline codes in use since 2023
- Other engineering and technology not elsewhere classified
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Projects
- 1 Active
-
SRP77: SRP-Onderzoekszwaartepunt: Exercise and the Brain in Health & Disease: The Added Value of Human-Centered Robotics
De Pauw, K. (Administrative Promotor), Meeusen, R. (Administrative Promotor), De Pauw, K. (Co-Promotor), Roelands, B. (Co-Promotor), Vanderborght, B. (Co-Promotor), Verstraten, T. (Co-Promotor) & Van de Perre, G. (Co-Promotor)
1/11/22 → 31/10/27
Project: Fundamental