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Incorporating human and learned domain knowledge into training deep
  neural networks: A differentiable dose volume histogram and adversarial
  inspired framework for generating Pareto optimal dose distributions in
  radiation therapy
v1v2 (latest)

Incorporating human and learned domain knowledge into training deep neural networks: A differentiable dose volume histogram and adversarial inspired framework for generating Pareto optimal dose distributions in radiation therapy

16 August 2019
D. Nguyen
R. Mcbeth
A. Sadeghnejad-Barkousaraie
G. Bohara
Chenyang Shen
X. Jia
Steve B. Jiang
    OODMedIm
ArXiv (abs)PDFHTML

Papers citing "Incorporating human and learned domain knowledge into training deep neural networks: A differentiable dose volume histogram and adversarial inspired framework for generating Pareto optimal dose distributions in radiation therapy"

5 / 5 papers shown
Title
Virtual Dosimetrists: A Radiotherapy Training "Flight Simulator"
Virtual Dosimetrists: A Radiotherapy Training "Flight Simulator"
S. Gay
Tucker Netherton
Barbara Marquez
Raymond P. Mumme
Mary P. Gronberg
Brent Parker
Chelsea Pinnix
Sanjay Shete
Carlos Cardenas
Laurence Court
62
0
0
14 May 2025
DeepDoseNet: A Deep Learning model for 3D Dose Prediction in Radiation
  Therapy
DeepDoseNet: A Deep Learning model for 3D Dose Prediction in Radiation Therapy
M. H. Soomro
Victor G. L. Alves
H. Nourzadeh
J. Siebers
104
9
0
29 Oct 2021
Deep Learning 3D Dose Prediction for Conventional Lung IMRT Using
  Consistent/Unbiased Automated Plans
Deep Learning 3D Dose Prediction for Conventional Lung IMRT Using Consistent/Unbiased Automated Plans
N. Dahiya
G. Jhanwar
A. Yezzi
M. Zarepisheh
Saad Nadeem
21
3
0
07 Jun 2021
Probabilistic feature extraction, dose statistic prediction and dose
  mimicking for automated radiation therapy treatment planning
Probabilistic feature extraction, dose statistic prediction and dose mimicking for automated radiation therapy treatment planning
Tianfang Zhang
R. Bokrantz
Jimmy Olsson
MedIm
30
13
0
24 Feb 2021
Using Deep Learning to Predict Beam-Tunable Pareto Optimal Dose
  Distribution for Intensity Modulated Radiation Therapy
Using Deep Learning to Predict Beam-Tunable Pareto Optimal Dose Distribution for Intensity Modulated Radiation Therapy
G. Bohara
A. Sadeghnejad-Barkousaraie
Steve B. Jiang
D. Nguyen
46
27
0
19 Jun 2020
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