AI Projects
EAISI focuses on the use of data and algorithms in machines, such as robots, autonomous cars and medical equipment, which has always been a strong aspect of TU/e and the Eindhoven Brainport region. In addition, we focus on the interaction between humans and systems, including trustworthy and transparent methods resulting in moral and ethical AI. EAISI has defined three main application areas: Health, High-Tech Systems and Mobility.
AI projects in Health
Health related AI applications are:
- Improved diagnostics
- Personalized and wearable health systems
- Better understanding of personal health states
- Preventive health management
House as Robot
By developing extreme scenarios and building mock-up’s, we aim to evolve everyday living spaces to adaptive living organisms that understand and empathize with the user. By Masi Mohammadi
Nano4Sports
Innovative sensor technology for better, save and livelong sports
GOAL
Gamification of overweight prevention and active lifestyle
ACACIA
The ACACIA project aims to advance cancer and cardiac care with AI, taking a patient-centered and physician-centered approach to address unresolved challenges that hamper adoption of AI in clinical practice.
AI projects in High-Tech systems and robotics
High-Tech Systems and Robotics applications are:
- Guaranteed machine performance
- Autonomous machine operation and smart
- human-operator support
- Multi-agent robotics
- Predictive maintenance
DACCLET
DACCLET focuses on the development of a reliable calculation tool for air entrapment in cooling circuits for lithographic exposure tools, which can be used for the optimal design of a cooling circuit and filling strategies to avoid trapped air. Run time from 2022 - 2026
Mantis
Cyber Physical System based Proactive Collaborative Maintenance
Digital Twins and Linked Building Data
Web-based information systems are developed, which collect various sorts of data about a building in a decentralized manner, including detailed 3D object models, point clouds, image data, semantic data, sensor data. By Pieter Pauwels
AI in manufacturing
Manufacturing of complex geometries (parametric and structurally optimized structures with minimal material use) will be enabled by digital manufacturing techniques, e.g. robotics in construction and additive manufacturing. By Rob Wolfs
Automated fault detection in photovoltaic (PV) systems
Large-scale monitoring of distributed PV systems in comparison with expected PV output generated by a digital twin network, taking into account dynamic weather conditions, partial shading due to urban surroundings (e.g. from LiDAR data) and the non-linear characteristics of inverters and power systems. By Roel Loonen
Expert systems for spatial-structural-physics design generation
The built environment is responsible for about 40% of the worldwide energy and material resources in a growing market. This requires fully optimized (renovated) buildings and optimized design processes. An open source available toolbox has been developed, providing super structured and super structure free spatial design representations; expert systems to generate, modify, and assess discipline specific representations. By Hèrm Hofmeyer
AI in Mobility projects
Mobility AI applications are:
• Vision and sensor capabilities for automated driving
• Data analytics for effective transportation systems and distributed traffic management
• Advanced Driver Assistance Systems
• Battery Management Systems
• Energy use optimization, smart grids
• Multi-modal transport applications and planning
Self-adaptive personal information systems
A Bayesian method for incremental learning an individual’s preferences based on his or her choice behavior is developed and applied in personal travel information systems. By Theo Arentze
AUTODRIVE
Fail-safe electronics for automated driving. This is a Horizon2020 EU funded research project.
5G-MOBIX
5G for cooperative & connected automated MOBility on X-border corridors. 5G-MOBIX consist of 55 partners from 10 countries from the EU and Turkey, China and Korea, representing European ICT industry.
HiFi Elements
High Fidelity Electric Modelling and Testing is a EU funded research project.
Safe-Up
SAFEty systems and tools for a constantly UPgrading road environment is a EU Horizon2020 funded project in cooperation with many academic and industrial partners within the EU.
SWT and Linked Data in Autonomous Mobility
Using ideas behind Linked Data and Semantic Web, allows the AI in charge of handling Autonomous Vehicles to consume valuable information from the surrounding ecosystem in order to achieve more optimal calculation of control parameters of the vehicle while using minimal amount of network resources. By Milos Viktorovic
Machine learning and sensor data
Based on various machine learning algorithms including Bayesian belief networks and decision trees, an integrated data analytics tool is developed to generate the spatial and temporal information related to travel and activities. By Tao Feng
LONGRUN
LONGRUN is the acronym for the development of efficient and environmental friendly LONG distance poweRtrain for heavy dUty trucks aNd coaches. This is a Horizon2020 EU funded project including many academic and industrial partners within the EU.
PRYSTINE
Programmable Systems for Intelligence in Automobiles is a Horizon2020 EU funded project.
C-Mobile
Accelerating C-ITS mobility, innovation and deployment in Europe is a Horizon 2020 EU funded research project.
For an overview of all TU/e project please check out the Research Projects page.