Projects
Profiling and prevention of knee joint pathomechanics to reduce risk of developing post-traumatic knee osteoarthritis following anterior cruciate ligament reconstruction. KU Leuven
Local models and local convergence for maximum likelihood iterative reconstruction KU Leuven
Iterative methods are being increasingly used for
reconstruction of tomographic data as in computed tomography (CT) and positron
emission tomography (PET). These methods often yield better reconstructions
compared to analytical methods. An important reason for this is that iterative
reconstruction has a more flexible data acquisition model which allows for a
more accurate simulation ...
Optimal experimental design for quantitative super resolution reconstruction MRI. University of Antwerp
Enhancing the diagnostic and quantitative value of emission tomography through the use of anatomical side-information during reconstruction. KU Leuven
X-ray reconstruction of foam microstructure formation. University of Antwerp
Prior-knowledge based iterative reconstruction for terahertz tomography. University of Antwerp
3D reconstruction using mobile devices for VR playback (CSC-2019-22) KU Leuven
In this project, we will investigate computational photography methods to capture 3D environments and reconstruct 3D worlds from a large set of images on a mobile device. This can be done using algorithms known as Structure from Motion (SfM), visual SLAM or Multi-View Stereo (MVS). However, those popular frameworks typically focus on 3D scanning of a small object. We will extend those approaches by creating a 3D reconstruction of an ...
Reconstruction of acoustic tissue properties for ultrasound tissue characterization KU Leuven
Ultrasound imaging is an indispensable tool in medical diagnostics and offers several advantages over other imaging techniques. During last decades, ultrasound technology has achieved significant progress leading to improved image quality. However, conventional ultrasound envelope-detected images remain qualitative in nature and lack quantitative information on the tissue state and pathology. Therefore, there has been an increased interest in ...
3D reconstruction of an environment using mobile devices KU Leuven
Mobile devices such as smartphones and tablets are becoming increasingly powerful and are often equipped with multiple cameras allowing to sense their environment. However, creating a precise 3D reconstruction using such mobile devices in real-life situations is still very challenging. The aim of this project is to create a dense 3D reconstruction of the environment using the sensors available on mobile devices. Our focus will be on the use ...