The free-form deformation model can represent a wide range of non-rigid deformations by manipulating a control point lattice over the image. However, due to a large number of parameters, it is challenging to fit the free-form deformation model directly to the deformed image for deformation estimation because of the complexity of the fitness landscape. In this paper, we cast the registration task as a multi-objective optimization problem (MOP) according to the fact that regions affected by each control point overlap with each other. Specifically, by partitioning the template image into several regions and measuring the similarity of each region independently, multiple objectives are built and deformation estimation can thus be realized by so...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Recovering the 3D shape of deformable surfaces from single images is difficult because many differen...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Nonrigid deformation modeling and estimation from images is a technically challenging task due to it...
Some of the hardest problems in deformable image registration are problems where large anatomical di...
htmlabstractThe use of gradient information is well-known to be highly useful in single-objective op...
Real-world surfaces such as clothing, water and human body deform in complex ways. The image distort...
The Real-Valued Gene-pool Optimal Mixing Evolutionary Algorithm (RV-GOMEA) has previously been succe...
textabstractTaking a multi-objective optimization approach to deformable image registration has rece...
Geometric models have received increasing attention in medical imaging for tasks such as segmentatio...
htmlabstractGradient methods and their value in single-objective, real-valued optimization are well...
This thesis treats two separate but connected themes. This affiliation originates in optimization be...
htmlabstractCurrently, two major challenges dominate the field of deformable image registration. The...
Deformable models constitute a flexible framework to address various shape reconstruction problems i...
We provide a detailed analysis of the 2D deformation algorithm based on non-linear least squares opt...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Recovering the 3D shape of deformable surfaces from single images is difficult because many differen...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Nonrigid deformation modeling and estimation from images is a technically challenging task due to it...
Some of the hardest problems in deformable image registration are problems where large anatomical di...
htmlabstractThe use of gradient information is well-known to be highly useful in single-objective op...
Real-world surfaces such as clothing, water and human body deform in complex ways. The image distort...
The Real-Valued Gene-pool Optimal Mixing Evolutionary Algorithm (RV-GOMEA) has previously been succe...
textabstractTaking a multi-objective optimization approach to deformable image registration has rece...
Geometric models have received increasing attention in medical imaging for tasks such as segmentatio...
htmlabstractGradient methods and their value in single-objective, real-valued optimization are well...
This thesis treats two separate but connected themes. This affiliation originates in optimization be...
htmlabstractCurrently, two major challenges dominate the field of deformable image registration. The...
Deformable models constitute a flexible framework to address various shape reconstruction problems i...
We provide a detailed analysis of the 2D deformation algorithm based on non-linear least squares opt...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Recovering the 3D shape of deformable surfaces from single images is difficult because many differen...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...