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    • Overview
    • Project 1 – Dose accumulation and uncertainty estimation
    • Project 2 – Automated segmentation and contour propagation
    • Project 3 – CBCT enhancement strategies for adaptive ion beam therapy
    • Project 4 – Advanced use of Magnetic Resonance Imaging in Adaptive Intensity Modulated Proton Therapy
    • Project 5 – 4D MR Imaging and motion modelling techniques for adaptive proton therapy
    • Project 6 – Optimizing the Plan of the Day
    • Project 7 – Robust optimization for anatomical variations
    • Project 8 – Real-time 4D-dose calculation to assess the efficacy of motion mitigation strategies
    • Project 9 – Automated and fast machine and delivery log-file based QA
    • Project 10 – Plan approval for daily plan adaptation
    • Project 11 – Robust optimization considering uncertainties in the frame of proton adaptive radiation therapy
    • Project 12 – Development of an end-to-end test workflow for all RAPTOR real-time adaptive PT components
    • Project 13 – Towards automated prompt-gamma treatment verification: Identification and classification of clinically relevant deviations
    • Project 14 – Dose quantification from PG imaging for adaptive planning
    • Project 15 – Proton Radiography for real-time Intensity Modulated Proton Therapy plan adaptation
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Menu
  • Home
  • Projects
    • Overview
    • Project 1 – Dose accumulation and uncertainty estimation
    • Project 2 – Automated segmentation and contour propagation
    • Project 3 – CBCT enhancement strategies for adaptive ion beam therapy
    • Project 4 – Advanced use of Magnetic Resonance Imaging in Adaptive Intensity Modulated Proton Therapy
    • Project 5 – 4D MR Imaging and motion modelling techniques for adaptive proton therapy
    • Project 6 – Optimizing the Plan of the Day
    • Project 7 – Robust optimization for anatomical variations
    • Project 8 – Real-time 4D-dose calculation to assess the efficacy of motion mitigation strategies
    • Project 9 – Automated and fast machine and delivery log-file based QA
    • Project 10 – Plan approval for daily plan adaptation
    • Project 11 – Robust optimization considering uncertainties in the frame of proton adaptive radiation therapy
    • Project 12 – Development of an end-to-end test workflow for all RAPTOR real-time adaptive PT components
    • Project 13 – Towards automated prompt-gamma treatment verification: Identification and classification of clinically relevant deviations
    • Project 14 – Dose quantification from PG imaging for adaptive planning
    • Project 15 – Proton Radiography for real-time Intensity Modulated Proton Therapy plan adaptation
  • Recruitment
  • Members
    • Beneficiaries
    • Supervisors
    • ESRs
    • Partners
  • Events
  • News&Articles
Contact us
  • Home
  • Projects
    • Overview
    • Project 1 – Dose accumulation and uncertainty estimation
    • Project 2 – Automated segmentation and contour propagation
    • Project 3 – CBCT enhancement strategies for adaptive ion beam therapy
    • Project 4 – Advanced use of Magnetic Resonance Imaging in Adaptive Intensity Modulated Proton Therapy
    • Project 5 – 4D MR Imaging and motion modelling techniques for adaptive proton therapy
    • Project 6 – Optimizing the Plan of the Day
    • Project 7 – Robust optimization for anatomical variations
    • Project 8 – Real-time 4D-dose calculation to assess the efficacy of motion mitigation strategies
    • Project 9 – Automated and fast machine and delivery log-file based QA
    • Project 10 – Plan approval for daily plan adaptation
    • Project 11 – Robust optimization considering uncertainties in the frame of proton adaptive radiation therapy
    • Project 12 – Development of an end-to-end test workflow for all RAPTOR real-time adaptive PT components
    • Project 13 – Towards automated prompt-gamma treatment verification: Identification and classification of clinically relevant deviations
    • Project 14 – Dose quantification from PG imaging for adaptive planning
    • Project 15 – Proton Radiography for real-time Intensity Modulated Proton Therapy plan adaptation
  • Recruitment
  • Members
    • Beneficiaries
    • Supervisors
    • ESRs
    • Partners
  • Events
  • News&Articles
Menu
  • Home
  • Projects
    • Overview
    • Project 1 – Dose accumulation and uncertainty estimation
    • Project 2 – Automated segmentation and contour propagation
    • Project 3 – CBCT enhancement strategies for adaptive ion beam therapy
    • Project 4 – Advanced use of Magnetic Resonance Imaging in Adaptive Intensity Modulated Proton Therapy
    • Project 5 – 4D MR Imaging and motion modelling techniques for adaptive proton therapy
    • Project 6 – Optimizing the Plan of the Day
    • Project 7 – Robust optimization for anatomical variations
    • Project 8 – Real-time 4D-dose calculation to assess the efficacy of motion mitigation strategies
    • Project 9 – Automated and fast machine and delivery log-file based QA
    • Project 10 – Plan approval for daily plan adaptation
    • Project 11 – Robust optimization considering uncertainties in the frame of proton adaptive radiation therapy
    • Project 12 – Development of an end-to-end test workflow for all RAPTOR real-time adaptive PT components
    • Project 13 – Towards automated prompt-gamma treatment verification: Identification and classification of clinically relevant deviations
    • Project 14 – Dose quantification from PG imaging for adaptive planning
    • Project 15 – Proton Radiography for real-time Intensity Modulated Proton Therapy plan adaptation
  • Recruitment
  • Members
    • Beneficiaries
    • Supervisors
    • ESRs
    • Partners
  • Events
  • News&Articles

Recruitment

Thank you for your numerous applications. No more applications accepted at the moment.


You are encouraged to check the website regularly to be updated on the latest information regarding the RAPTOR project. In case of a new open position, this will be advertised here.

Open positions

RAPTOR project has received funding from the European Union’s Horizon 2020 Marie Skłodowska-Curie Actions under Grant Agreement No. 955956.

The website reflects only the author’s view. The Research Executive Agency and the European Commission are not responsible for any use that may be made of the information it contains.

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