TubeTK/Events/2010.07.12: Difference between revisions
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= Andinet = | = Andinet = | ||
* Primary goal: Data from Duke for BWH | * Primary goal: Data from Duke for BWH | ||
* | * Accomplishments | ||
** Attend NAMIC AHM | ** Attend NAMIC AHM | ||
** Determine what is necessary to record data sent to OpenIGTLink from VectorVision system | ** Determine what is necessary to record data sent to OpenIGTLink from VectorVision system | ||
Line 8: | Line 7: | ||
*** Begin implementation | *** Begin implementation | ||
*** Product: powerpoint presentation: 5 slides | *** Product: powerpoint presentation: 5 slides | ||
* | * Near term (August 1) | ||
** | ** Install VV at Duke | ||
** | ** Determine if we can get US data from Duke machine | ||
** Write IJ article | |||
*** Cite grant proposal in article | *** Cite grant proposal in article | ||
* Medium term (1.5 months, August 15) | |||
** Investigate simulation of ultrasound from MR/CT (Talk to Stephen First :) ) | |||
** Code review of vessel segmentation method from Stephen | |||
= Patrick = | = Patrick = | ||
* Primary goal: Bump and dent identification on IC images | * Primary goal: Bump and dent identification on IC images | ||
* | * Accomplishments | ||
** Explore new features | ** Explore new features | ||
*** z-score values from three different mean/stdDev joint histograms: add, subtract, and unchanged | *** z-score values from three different mean/stdDev joint histograms: add, subtract, and unchanged | ||
*** evaluate a variety of standard deviations for intensity and ridge computations | *** evaluate a variety of standard deviations for intensity and ridge computations | ||
*** compute dot-product between line (hessian) tangent and normal directions in ES and GDS images | ** New centerline method (skeletonization) | ||
*** Product: ~ 5 slides to USC illustrating path chosen, strengths, and weaknesses. | ** GenerateFeaturesForWeka | ||
* Medium term (1 | * Near Term (Aug 1) | ||
** | ** Get registered data from Greg | ||
** compute dot-product between line (hessian) tangent and normal directions in ES and GDS images | |||
** write program that goes from Weka output to image and computes TPR/FPR scores on that image | |||
** Collaborate with Casey | |||
*** Choose classification scheme | |||
*** Implement in C++ or python - in tubetk | |||
**** Use neuralnets / parzenWindowing in ITK | |||
*** Subselect features | |||
** Product: ~ 5 slides / report to USC illustrating path chosen, strengths, and weaknesses. | |||
*** Real-world tests / workflow | |||
*** Does a trained classifier work on other layers? | |||
*** Does a trained classifier work on other acquisitions? | |||
**** i.e., do we need to insert modifications for training on every slice / acquisition / ? | |||
**** Normalizing for inter-acquisition (or inter-slice) variations? | |||
** Go to Synchrotron | |||
* Medium term (1 months, August 15) | |||
** Delivery and education | |||
** Can we get better in simulation? | |||
** Connectivity analysis | |||
= Casey = | = Casey = | ||
* Primary goal: Compare populations of vascular networks | * Primary goal: Compare populations of vascular networks | ||
* Near term ( | * Near term (0.5, Aug 1) | ||
** Collaborate with Patrick | |||
*** Feature extraction | |||
**** Patch-based features (max, median, quantiles) | |||
**** Scales / neighborhood | |||
*** Feature research | |||
**** Width estimate from Stephen (concern, time) | |||
**** Location of local max in ridgeness | |||
**** Subsample centerlines | |||
**** Optimal match filter | |||
*** Classifiers | |||
**** Comparison | |||
**** Implementation for transfer to USC | |||
**** Hierarchy (Good/bad. If bad, then add/sub.) | |||
** Data for Retinas | |||
* Medium term (1 months, Aug 15) | |||
** Review previous processing pipeline with Stephen | ** Review previous processing pipeline with Stephen | ||
** Research on methods for comparing spatial graphs / adjacency matrices | ** Research on methods for comparing spatial graphs / adjacency matrices | ||
** Begin Port and test existing adjacency code | ** Begin Port and test existing adjacency code | ||
** Process retinal data | ** Process retinal data | ||
** Complete port and test of existing adjacency code | ** Complete port and test of existing adjacency code | ||
Line 38: | Line 72: | ||
= Hua = | = Hua = | ||
* Primary goal: ultrasound image processing | * Primary goal: ultrasound image processing | ||
* | * Accomplished | ||
** Verify Andinet's code: add tests and help with IJ publication | ** Verify Andinet's code: add tests and help with IJ publication | ||
*** Creating tests (sin pattern with known derivatives) | *** Creating tests (sin pattern with known derivatives) | ||
*** | * Near term (August 1) | ||
*** | ** Increase coverage of TubeTK | ||
** Update registration code | |||
** Begin investigation of registration metrics that depend on ultrasound probe orientation | |||
*** Get data from InnerOptic | |||
**** Design phantom or use something from InnerOptic | |||
**** Discuss with InnerOptic | |||
**** CIRS Phantom | |||
**** http://www.insight-journal.org/midas/item/view/2206 | |||
**** http://www.insight-journal.org/midas/item/view/117 | |||
* Medium term (1.5 months | * Medium term (1.5 months | ||
** Investigate use of speckle in ultrasound registration | ** Investigate use of speckle in ultrasound registration | ||
Line 48: | Line 90: | ||
** 2D-3D registration (data) | ** 2D-3D registration (data) | ||
** Simulating ultrasound from MR/CT | ** Simulating ultrasound from MR/CT | ||
[[Category:TubeTK Events and Meetings|2010.07.12]] |
Latest revision as of 18:45, 26 July 2013
Andinet
- Primary goal: Data from Duke for BWH
- Accomplishments
- Attend NAMIC AHM
- Determine what is necessary to record data sent to OpenIGTLink from VectorVision system
- Define data workflow and software architecture
- Begin implementation
- Product: powerpoint presentation: 5 slides
- Near term (August 1)
- Install VV at Duke
- Determine if we can get US data from Duke machine
- Write IJ article
- Cite grant proposal in article
- Medium term (1.5 months, August 15)
- Investigate simulation of ultrasound from MR/CT (Talk to Stephen First :) )
- Code review of vessel segmentation method from Stephen
Patrick
- Primary goal: Bump and dent identification on IC images
- Accomplishments
- Explore new features
- z-score values from three different mean/stdDev joint histograms: add, subtract, and unchanged
- evaluate a variety of standard deviations for intensity and ridge computations
- New centerline method (skeletonization)
- GenerateFeaturesForWeka
- Explore new features
- Near Term (Aug 1)
- Get registered data from Greg
- compute dot-product between line (hessian) tangent and normal directions in ES and GDS images
- write program that goes from Weka output to image and computes TPR/FPR scores on that image
- Collaborate with Casey
- Choose classification scheme
- Implement in C++ or python - in tubetk
- Use neuralnets / parzenWindowing in ITK
- Subselect features
- Product: ~ 5 slides / report to USC illustrating path chosen, strengths, and weaknesses.
- Real-world tests / workflow
- Does a trained classifier work on other layers?
- Does a trained classifier work on other acquisitions?
- i.e., do we need to insert modifications for training on every slice / acquisition / ?
- Normalizing for inter-acquisition (or inter-slice) variations?
- Go to Synchrotron
- Medium term (1 months, August 15)
- Delivery and education
- Can we get better in simulation?
- Connectivity analysis
Casey
- Primary goal: Compare populations of vascular networks
- Near term (0.5, Aug 1)
- Collaborate with Patrick
- Feature extraction
- Patch-based features (max, median, quantiles)
- Scales / neighborhood
- Feature research
- Width estimate from Stephen (concern, time)
- Location of local max in ridgeness
- Subsample centerlines
- Optimal match filter
- Classifiers
- Comparison
- Implementation for transfer to USC
- Hierarchy (Good/bad. If bad, then add/sub.)
- Feature extraction
- Data for Retinas
- Collaborate with Patrick
- Medium term (1 months, Aug 15)
- Review previous processing pipeline with Stephen
- Research on methods for comparing spatial graphs / adjacency matrices
- Begin Port and test existing adjacency code
- Process retinal data
- Complete port and test of existing adjacency code
- Prepare IJ article
Hua
- Primary goal: ultrasound image processing
- Accomplished
- Verify Andinet's code: add tests and help with IJ publication
- Creating tests (sin pattern with known derivatives)
- Verify Andinet's code: add tests and help with IJ publication
- Near term (August 1)
- Increase coverage of TubeTK
- Update registration code
- Begin investigation of registration metrics that depend on ultrasound probe orientation
- Get data from InnerOptic
- Design phantom or use something from InnerOptic
- Discuss with InnerOptic
- CIRS Phantom
- http://www.insight-journal.org/midas/item/view/2206
- http://www.insight-journal.org/midas/item/view/117
- Get data from InnerOptic
- Medium term (1.5 months
- Investigate use of speckle in ultrasound registration
- Model-based deformation field interpolation
- 2D-3D registration (data)
- Simulating ultrasound from MR/CT