论文信息 - The leaf sweep algorithm for an immobile and moving target as an optimal control problem in radiotherapy delivery

The leaf sweep algorithm for an immobile and moving target as an optimal control problem in radiotherapy delivery

The variational problem of modelling the optimized dynamic delivery of intensity modulated radiation therapy is investigated. Motions of two jaws are determined that expose each point of the field for a predetermined amount of time and minimize the overall time of the radiation delivery. Variable initial and final conditions for jaw motions are admissible and constraints expressing limitations on speeds of jaw movements are included. Cases of dynamic intensity modulation for immobile as well as moving targets are investigated.

L. Papie | L. Papie

[1] Jouko Tervo,et al. INVERSE RADIOTHERAPY TREATMENT PLANNING MODEL APPLYING BOLTZMANN-TRANSPORT EQUATION , 2002 .

[2] R. Mohan,et al. Motion adaptive x-ray therapy: a feasibility study , 2001, Physics in medicine and biology.

[3] D. Convery,et al. The generation of intensity-modulated fields for conformal radiotherapy by dynamic collimation , 1992 .

[4] T. Bortfeld,et al. X-ray field compensation with multileaf collimators. , 1994, International journal of radiation oncology, biology, physics.