Laurent Babout
dr hab.
- Zdalny użytkownik: Moodle
- Użytkownik zdalny - profil pobrano z WEEIA
- Afiliacja:
- I24 - Instytut Informatyki Stosowanej
- ORCID ID:
- 0000-0002-3048-6924
Konsultacje
Konsultacje cykliczne
Dzień tygodnia | Początek | Koniec | Semestr | Miejsce (budynek, pokój) | Opis |
---|---|---|---|---|---|
Wtorek | 12:15 | 13:00 | 2023/24 Z | ||
Czwartek | 13:15 | 14:00 | 2023/24 Z |
Więcej o mnie
My initial scientific interest concerns the study of damage mechanisms in materials using X-ray tomography. My interest naturally "muted" to 3D image processing when I joined the Institute of Applied Computer Science in 2005. I also got deeply involved in the process tomography group, for which I (co-)lead two European grants: DENIDIA (FP6 ToK; 2006-2010) and TOMOCON (H2020 MSCA ITN; 2017-2022).
As far as teaching is concerned, I am mainly involved in IT-related courses at IFE in the CS and HCI programmes. I also have a solid experience in flipped education methods, such as problem-based learning, case teaching or Process-Oriented Guided Inquiry Learning (POGIL).
Winter semester |
Summer semester |
---|---|
Introduction to Computer Science (CS; labs) |
Algorithms and Data Structures (CS; tutorials) |
Information technologies (ETE; lectures) |
Software Engineering (CS; lectures) |
Interdisciplinary Problem-Based Learning Project (All majors; projects) |
Introduction to HCI (HCI; lectures/labs/projects) |
Professional Design Project (CS; coordinator) |
Team project (ETE; coordinator) |
User-Centered Design (HCI; lectures/projects) |
Publikacje
2022
A Review on Fast Tomographic Imaging Techniques and Their Potential Application in Industrial Process Control
MDPI Sensors. https://doi.org/10.3390/s22062309
Publikacja projektu TOMOCON (https://www.tomocon.eu)
2022
An Edge Detection Method Based on Local Gradient Estimation: Application to High-Temperature Metallic Droplet Images
MDPI Applied Sciences. https://doi.org/10.3390/app12146976
2022
A Fast Electrical Resistivity-Based Algorithm to Measure and Visualize Two-Phase Swirling Flows
MDPI Sensors. https://doi.org/10.3390/s22051834
Publikacja projektu TOMOCON (https://www.tomocon.eu)
2020
Multichannel Capacitive Imaging of Gas Vortex in Swirling Two-Phase Flows Using Parametric Reconstruction
IEEE Access. https://doi.org/10.1109/ACCESS.2020.2986724
Publikacja projektu TOMOCON (https://www.tomocon.eu)
2020
Quantitative analysis of flow dynamics of organic granular materials inside a versatile silo model during time-lapse X-ray tomography experiments
Computers and Electronics in Agriculture. https://doi.org/10.1016/j.compag.2020.105346
2020
Control of a Gas-Liquid Inline Swirl Separator Based on Tomographic Measurements
IFAC PAPERSONLINE. https://doi.org/10.1016/j.ifacol.2020.12.588
Publikacja Projektu TOMOCON (https://www.tomocon.eu)
2018
Selection of material for X-ray tomography analysis and DEM simulations: comparison between granular materials of biological and non-biological origins
Granular Matter. https://doi.org/10.1007/s10035-018-0809-y
2018
Study of granular flow in silo based on electrical capacitance tomography and optical imaging
Flow Measurement and Instrumentation. https://doi.org/10.1016/j.flowmeasinst.2017.11.001
2018
Investigating local orientation methods to segment microstructure with 3D solid texture
IET Image Processing. https://doi.org/10.1049/iet-ipr.2016.0842
2018
A new data-processing approach to study particle motion using ultrafast X-ray tomography scanner: case study of gravitational mass flow
Experiments in Fluids. https://doi.org/10.1007/s00348-018-2523-2
- Pierwszy dostęp do strony
- wtorek, 24 lipca 2012, 19:05 (11 lata 250 dni)
- Ostatni dostęp do strony
- czwartek, 28 marca 2024, 10:29 (21 godzin 15 min.)