Deformable image registration is typically formulated as an optimization problem involving a linearly weighted combination of terms that correspond to objectives of interest (e.g. similarity, deformation magnitude). The weights, along with multiple other parameters, need to be manually tuned for each application, a task currently addressed mainly via trial-and-error approaches. Such approaches can only be successful if there is a sensible interplay between parameters, objectives, and desired registration outcome. This, however, is not well established. To study this interplay, we use multi-objective optimization, where multiple solutions exist that represent the optimal trade-offs between the objectives, forming a so-called Pareto front. He...
Taking a multi-objective optimization approach to deformable image registration has recently gained ...
textabstractBreast conserving surgery followed by radiotherapy is the standard of care for early-sta...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Deformable image registration is typically formulated as an optimization problem involving a linearl...
Deformable image registration is currently predominantly solved by optimizing a weighted linear comb...
Incorporating additional guidance information, e.g., landmark/contour correspondence, in deformable ...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Multiobjective optimization approaches for deformable image registration (DIR) remove the need for m...
Deformable image registration (DIR), the process of deforming one image to match another, is an imag...
Currently, two major challenges dominate the field of deformable image registration. The first chall...
Taking a multi-objective optimization approach to deformable image registration has recently gained ...
textabstractBreast conserving surgery followed by radiotherapy is the standard of care for early-sta...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Deformable image registration is typically formulated as an optimization problem involving a linearl...
Deformable image registration is currently predominantly solved by optimizing a weighted linear comb...
Incorporating additional guidance information, e.g., landmark/contour correspondence, in deformable ...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...
Multiobjective optimization approaches for deformable image registration (DIR) remove the need for m...
Deformable image registration (DIR), the process of deforming one image to match another, is an imag...
Currently, two major challenges dominate the field of deformable image registration. The first chall...
Taking a multi-objective optimization approach to deformable image registration has recently gained ...
textabstractBreast conserving surgery followed by radiotherapy is the standard of care for early-sta...
Current state-of-the-art medical deformable image registration (DIR) methods optimize a weighted sum...