2011 Winter Project Week:DicomToNrrdRefactoring
- UIowa: Hans Johnson, Mark Scully, Joy Matsui
- GE: Xiaodong Tao
Gather requirements in support of refactoring the DWI DicomToNrrdConverter.
- Redesign DicomToNrrdConverter so that it is more maintainable.
- Design a general base class to support most of the medical images in dicom format.
- Supports for vendor/version/datatype combinations are implemented as derived classes and are independent from each other.
- (Possibly) define APIs and derived classes for functional MRI.
Meet with anyone interested and establish a list of known requirements for DicomToNrrdConverter. Collectively brainstorm approaches to the refactoring, such as the use of GDCM 1.2 vs. GDCM 2.x vs. DCMTK. References:
Refactoring of Dicom to NRRD converter:
- Target for Slicer4. First working version (passing current tests) in April.
- Define API's for GDCM 2.x. Integrate with GDCM 2.x at summer programming week.
- Separate functionalities for extracting essential spacial information from those for extracting non-essential information.
- Essential information (all in public tags): space location, resolution, image orientation (IJK->xyz), and how the ordering of dicom files corresponds to the organization of the slices. This information is essential for putting measurements in the correct physical locations.
- Non-essential information (some are in private tags, vendor dependent): diffusion related information -- b-values, gradient weighting direction, B-matrix.
Current DWI variations list:
- slice ordering (S->I vs I->S),
- transfer syntax endianness (big, little, and unknown),
- slice arrangement (mosaic vs split, slice interleaving vs volume interleaving),
- #B-Values (single vs multiple),
- gradient vector reference frame (Scanner vs patient),
- slice orientation (orthogonal vs oblique),
- multiple B0s (all at beginning, all at end, interspersed)
- vendor (different ways of storing diffusion information),
- software versions (changes in how diffusion information is stored and interpreted).