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** report | ** report | ||
* <b>2nd term courses</b> Machine learning with Big data, Inverse problems in imaging | * <b>2nd term courses</b> Machine learning with Big data, Inverse problems in imaging | ||
=== 1st year === | === 1st year === | ||
<br /> | |||
* <big>Summer</big> | |||
** <b>Summer School</b> STFC Data Intensive, Artificial Intelligence and Machine Learning Summer School 2019 | |||
** <b>G4</b> Simulate PDD, profile and Output factor from a scintillator sheet sandwiched between 2 platic slabs: | |||
*** PDD agrees within 2% but profile and Output factor(OF) doesn't. | |||
*** Cerenkov coming from plastic slabs distorts OF and profile. | |||
*** This is because as you increase the beam width, the amount of X-ray going into the plastic slab is proportional to (beam width)<sup>2</sup> <br /> but the amount of X-rays going into the sheet is proportional to beam width. | |||
<br /> | |||
* <big>3rd term</big> | |||
** <b>Workshop</b> Went to workshop - "Challenges and opportunities within practical small field dosimetry" - 9th may | |||
** <b>G4</b> Simulate image of an irradiated scintillator block and compared it's pdd with image from CCD camera. | |||
*** ~100,000 optical photons collected by lens given ~10,000,000 x-ray photons, which took 3 hours. | |||
** <b>G4</b> Speed improvements of scintillator block image: | |||
*** can use 4 lens' as there is 2 planes of symmetry => simulation captures 4x as much photons | |||
*** Use HEP batch farm to run jobs on 100 cores | |||
*** kill optical photons which are internally reflected by all sides of block => simulation ~10x faster | |||
<br /> | |||
* <big>2nd term</big> | |||
** <b>Courses</b>: Machine learning with big data, Inverse problems in imaging | |||
** <b>Group placement project</b>: exploring the simulacrum cancer dataset from PHE (partnered with Valtech) | |||
*** presentation | |||
*** report | |||
** <b>G4</b> Import phase space file (cyberknife) beam to use as primary generator. | |||
** <b>G4</b> Simulate PDD, profile dose distributions in water and compare with measured. | |||
* 1st term | <br /> | ||
** Courses: Standard model 1 & 2, Prob and stats, Research software (python) | * <big>1st term</big> | ||
** <b>Courses</b>: Standard model 1 & 2, Prob and stats, Research software (python) | |||
** <b>G4</b> Learning Geant4 with: | |||
*** [https://groups.lal.in2p3.fr/ED-geant4/category/2018/page/2/ ED-Geant4] - Lectures with exercises and solutions from an intro G4 workshop in 2018. | |||
*** [http://geant4-userdoc.web.cern.ch/geant4-userdoc/UsersGuides/ForApplicationDeveloper/html/ Geant4 book] - Reference for G4. | |||
Revision as of 14:26, 16 December 2019
Electronic Log for Jeremy Ocampo.
To do
- G4 Simulate an image from a 1mm thick scintillator in a non-scintillating plastic slab
- compare to image from thick scintillator block
- this is to test the idea that we are seeing errors due to focal depth or light coming from different depths
- G4 Get profiles at different depths and compare to data
- G4 Get output factor curves and compare to data
- G4 Make code neater, add more macros
- Report Finish first draft of start of report.
- Group placement make poster of group placement project
- Camera Familiarize oneself with DSLR camera and software
- Reading
Completed
- Workshop Went to workshop - "Challenges and opportunities within practical small field dosimetry" - 9th may
- G4 Simulate image from a 10cmx10cmx20cm scintillator and compared it's pdd with image from dslr camera.
- ~100,000 optical photons collected by lens given ~10,000,000 x-ray photons, which took 3 hours.
- reduced computing time using multithreaded mode, and also using the symmetry of the system by adding more lenses to collect more light
- G4 Import phase space file (cyberknife) beam to use as primary generator.
- Group placement exploring the simulacrum cancer data from PHE - 12th april
- presentation
- report
- 2nd term courses Machine learning with Big data, Inverse problems in imaging
1st year
- Summer
- Summer School STFC Data Intensive, Artificial Intelligence and Machine Learning Summer School 2019
- G4 Simulate PDD, profile and Output factor from a scintillator sheet sandwiched between 2 platic slabs:
- PDD agrees within 2% but profile and Output factor(OF) doesn't.
- Cerenkov coming from plastic slabs distorts OF and profile.
- This is because as you increase the beam width, the amount of X-ray going into the plastic slab is proportional to (beam width)2
but the amount of X-rays going into the sheet is proportional to beam width.
- 3rd term
- Workshop Went to workshop - "Challenges and opportunities within practical small field dosimetry" - 9th may
- G4 Simulate image of an irradiated scintillator block and compared it's pdd with image from CCD camera.
- ~100,000 optical photons collected by lens given ~10,000,000 x-ray photons, which took 3 hours.
- G4 Speed improvements of scintillator block image:
- can use 4 lens' as there is 2 planes of symmetry => simulation captures 4x as much photons
- Use HEP batch farm to run jobs on 100 cores
- kill optical photons which are internally reflected by all sides of block => simulation ~10x faster
- 2nd term
- Courses: Machine learning with big data, Inverse problems in imaging
- Group placement project: exploring the simulacrum cancer dataset from PHE (partnered with Valtech)
- presentation
- report
- G4 Import phase space file (cyberknife) beam to use as primary generator.
- G4 Simulate PDD, profile dose distributions in water and compare with measured.
- 1st term
- Courses: Standard model 1 & 2, Prob and stats, Research software (python)
- G4 Learning Geant4 with:
- ED-Geant4 - Lectures with exercises and solutions from an intro G4 workshop in 2018.
- Geant4 book - Reference for G4.