The IRIS Lab (Intelligent & Reliable Imaging Systems) develops AI-based technology that improves microscopy methods in the life and biomedical sciences to unravel biological processes from a molecular level up to the scale of tissues and organisms.

Core tasks in biological microscopy such as detection and tracking of objects, as well as image classification and image segmentation are now often performed by neural networks. Neural networks are trained to perform a certain task using very large sets of data, but which decisions these networks take, and why, remains essentially a ‘black box’. For scientific applications this black box causes a dilemma: the learned knowledge is not transparent and cannot be reliably reused. Furthermore, how well a method performs its task is strongly tied to the specific data it was trained on and therefore cannot be easily used across different modalities of biological imaging that all produce different image data.

The aim of the IRIS lab is to open the black box of AI. We will accomplish this by having networks approximate physical and system operations separately to enable the incorporation of known physical principles of image formation in optical, electron and acoustical microscopy.

The IRIS Lab is part of the TU Delft AI Labs programme.

IRIS Lab experiments with AI methodology on a light-sheet fluorescence microscope to enable biomedical imaging on a wide variety of scales.
IRIS Lab experiments with AI methodology on a light-sheet fluorescence microscope to enable biomedical imaging on a wide variety of scales.
IRIS Lab experiments with AI methodology on a light-sheet fluorescence microscope to enable biomedical imaging on a wide variety of scales.

IRIS Lab experiments with AI methodology on a light-sheet fluorescence microscope to enable biomedical imaging on a wide variety of scales.

Projects

Publications

Code & Datasets

The team

Directors

David Maresca

Faculty of AS
Lab director

Carlas Smith

Faculty of ME
Lab director

Arjen J. Jakobi

Faculty of AS
Lab director

PhD students

Alok Bhradwaj

PhD student

Jelmer Cnossen

PhD student

Maarten Joosten

PhD student

Dylan Kalisvaart

PhD student

Serafim Korovin

PhD student

Daniel Spengler

PhD student

Education

Courses

2024/2025 

2023/2024  

2022/2023  

2021/2022  

2020/2021  

2019/2020  

 

Master projects

Ongoing  

  • Epistemic Uncertainty, Carlas Smith, Koen Stapel (2022/2023) 
  • LTSM networks, Carlas Smith, Oscar He (2022/2023) 
  • Self Supervise Learning, Carlas Smith, Gerben Rijpkema (2021/2022) 

Finished  

News

New foundations Iterative Single-Molecule Localization Microscopy

In a recent publication, IRIS researchers Dylan Kalisvaart and Carlas Smith present a new method to estimate the best possible resolution achievable by specific microscopy methods.

Ground-breaking microscopy

In a recent issue of the TU Delft Matters, three TUD researchers (among which IRIS member Arjen Jakobi) explain how recent developments in different microscopy methods are set to revolutionize biological imaging.
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