In intensity-modulated radiation therapy, treatment planners aim to irradiate the tumour according to a medical prescription while sparing surrounding organs at risk as much as possible. Although this problem is inherently a multi-objective optimisation (MO) problem, most of the models in the literature are single-objective ones. For this reason, a large number of single-objective algorithms have been proposed in the literature to solve such single-objective models rather than multi-objective ones. Further, a difficulty that one has to face when solving the MO version of the problem is that the algorithms take too long before converging to a set of (approximately) non-dominated points. In this paper, we propose and compare three different s...
Some time ago we developed and published a new deterministic algorithm ( called Cycle) for automatic...
For the last decade, optimization of beam orientations in intensity-modulated radiation therapy (IMR...
Radiation therapy (RT) main purpose is to eliminate, in a controlled way, all tumor cells sparing as...
One important problem in radiation therapy for cancer treatment is the selection of the set of beam ...
Selecting a suitable set of beam angles is an important but difficult task in intensity modulated ra...
Generally, the inverse planning of radiation therapy consists mainly of the fluence optimization. Th...
textabstractIn a recent paper, we have published a new algorithm, designated iCycle, for fully autom...
In a recent paper, we have published a new algorithm, designated 'iCycle', for fully automated multi...
For the last decade, optimization of beam orientations in intensitymodulated radiation therapy (IMRT...
This article introduces a new framework for beam angle optimization (BAO) in intensity-modulated rad...
Radiation therapy is used to treat localized cancers, aiming to deliver a dose of radiation to the t...
none4siIntensity-Modulated Radiation Therapy is the technique of delivering radiation to cancer pati...
Intensity‐modulated radiation therapy (IMRT) is a modern radiotherapy modality that uses a multileaf...
In the multi-criteria optimization approach to IMRT planning, a given dose distribution is evaluated...
Radiation therapy (RT) is used nowadays for the majority of cancer patients. A technologically adva...
Some time ago we developed and published a new deterministic algorithm ( called Cycle) for automatic...
For the last decade, optimization of beam orientations in intensity-modulated radiation therapy (IMR...
Radiation therapy (RT) main purpose is to eliminate, in a controlled way, all tumor cells sparing as...
One important problem in radiation therapy for cancer treatment is the selection of the set of beam ...
Selecting a suitable set of beam angles is an important but difficult task in intensity modulated ra...
Generally, the inverse planning of radiation therapy consists mainly of the fluence optimization. Th...
textabstractIn a recent paper, we have published a new algorithm, designated iCycle, for fully autom...
In a recent paper, we have published a new algorithm, designated 'iCycle', for fully automated multi...
For the last decade, optimization of beam orientations in intensitymodulated radiation therapy (IMRT...
This article introduces a new framework for beam angle optimization (BAO) in intensity-modulated rad...
Radiation therapy is used to treat localized cancers, aiming to deliver a dose of radiation to the t...
none4siIntensity-Modulated Radiation Therapy is the technique of delivering radiation to cancer pati...
Intensity‐modulated radiation therapy (IMRT) is a modern radiotherapy modality that uses a multileaf...
In the multi-criteria optimization approach to IMRT planning, a given dose distribution is evaluated...
Radiation therapy (RT) is used nowadays for the majority of cancer patients. A technologically adva...
Some time ago we developed and published a new deterministic algorithm ( called Cycle) for automatic...
For the last decade, optimization of beam orientations in intensity-modulated radiation therapy (IMR...
Radiation therapy (RT) main purpose is to eliminate, in a controlled way, all tumor cells sparing as...