All software
AMIGOpy
Welcome to AMIGOpy (A Medical Image-based Graphical platfOrm - Python)! This is an evolution of the previously developed MATLAB-based software AMIGOBrachy. While AMIGOBrachy was a user interface tailored specifically for absorbed dose calculations in brachytherapy coupled with MCNP6 MC code, AMIG...
- Treatment Planning and dosimetry
ApertureComplexity
Contains complete functionality of aperture complexity analysis. Extends methodology to any TPS exporting DICOM-RP. Requires pydicom, numpy, pandas, pytest.
- Treatment Planning and dosimetry
BeamSchemeV1
Assists in extracting 1D profiles from 2D datasets. Calculates over 90 different parameters. Supports FFF beams. Not intended to replace commercial software. Not compatible with previous versions (from 1.00).
- Treatment Planning and dosimetry
Bistromath
BistroMath is designed as add-on to the measuring software of water phantom systems used in radiotherapy.
- Treatment Planning and dosimetry
CERR
CERR (pronounced 'sir'), stands for Computational Environment for Radiological Research. CERR is MATLAB based software platform for developing and sharing research results using radiation therapy treatment planning and imaging informatics.
- Treatment Planning and dosimetry
conehead
Early experimental development, code expected to change dramatically. Uses Python/Cython.
- Treatment Planning and dosimetry
- (Cython)
- ("Jupyter Notebook")
- (Python)
FLUKA
The FLUKA code is a general purpose Monte Carlo code for the interaction and transport of hadrons, leptons, and photons from keV (with the exception of neutrons, tracked down to thermal energies) to cosmic ray energies in any material.
- Treatment Planning and dosimetry
FoCa
FoCa is an in-house modular treatment planning system, developed entirely in MATLAB, which includes forward dose calculation of proton radiotherapy plans in both active and passive modalities as well as a generic optimization suite for inverse treatment planning.
- Treatment Planning and dosimetry
FRED
Optimizes proton dose and dose-averaged LET (LETd) simultaneously. Incorporates superiorization of feasibility-seeking algorithms. Satisfactory execution times (14-50 min). Well-tested and documented.
- Treatment Planning and dosimetry
FRoG
Independent dose and LETd prediction tool for proton therapy, GPU-accelerated, sandbox environment, supports variable RBE models. Not for clinical use.
- Treatment Planning and dosimetry
GATE
GATE is open source, based on Geant4, and developed by the international OpenGATE collaboration
- Treatment Planning and dosimetry
- (C)
- (C++)
- (CMake)
- + 2
GEANT4
- Treatment Planning and dosimetry