Deformable image registration is currently predominantly solved by optimizing a weighted linear combination of objectives. Successfully tuning the weights associated with these objectives is not trivial, leading to trial-and-error approaches. Such an approach assumes an intuitive interplay between weights, optimization objectives, and target registration errors. However, it is not known whether this always holds for existing registration methods. To investigate the interplay between weights, optimization objectives, and registration errors, we employ multi-objective optimization. Here, objectives of interest are optimized simultaneously, causing a set of multiple optimal solutions to exist, called the optimal Pareto front. Our medical appli...
Deformable image registration (DIR), the process of deforming one image to match another, is an imag...
htmlabstractGradient methods and their value in single-objective, real-valued optimization are well...
textabstractBreast conserving surgery followed by radiotherapy is the standard of care for early-sta...
textabstractDeformable image registration is currently predominantly solved by optimizing a weighted...
Deformable image registration is typically formulated as an optimization problem involving a linearl...
Incorporating additional guidance information, e.g., landmark/contour correspondence, in deformable ...
Taking a multi-objective optimization approach to deformable image registration has recently gained ...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Currently, two major challenges dominate the field of deformable image registration. The first chall...
The use of gradient information is well-known to be highly useful in single-objective optimization-b...
Some of the hardest problems in deformable image registration are problems where large anatomical di...
Deformable image registration (DIR), the process of deforming one image to match another, is an imag...
htmlabstractGradient methods and their value in single-objective, real-valued optimization are well...
textabstractBreast conserving surgery followed by radiotherapy is the standard of care for early-sta...
textabstractDeformable image registration is currently predominantly solved by optimizing a weighted...
Deformable image registration is typically formulated as an optimization problem involving a linearl...
Incorporating additional guidance information, e.g., landmark/contour correspondence, in deformable ...
Taking a multi-objective optimization approach to deformable image registration has recently gained ...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Currently, two major challenges dominate the field of deformable image registration. The first chall...
The use of gradient information is well-known to be highly useful in single-objective optimization-b...
Some of the hardest problems in deformable image registration are problems where large anatomical di...
Deformable image registration (DIR), the process of deforming one image to match another, is an imag...
htmlabstractGradient methods and their value in single-objective, real-valued optimization are well...
textabstractBreast conserving surgery followed by radiotherapy is the standard of care for early-sta...