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TMI
2010
2010
3D Forward and Back-Projection for X-Ray CT Using Separable Footprints
The greatest impediment to practical adoption of iterative methods for X-ray CT is the computation burden of cone-beam forward and back-projectors. Moreover, forward and back-projector accuracy is also crucial to iterative reconstruction methods. We previously described a computationally efficient projector that approximates the voxel footprint functions by the 2D separable products of trapezoid functions in the transaxial plane and rectangular functions in the axial direction [1], [2]. The separability of these footprint functions simplifies calculating their integrals over rectangular detector cells. We showed that this separable footprint (SF-TR) method was more accurate than the distance-driven (DD) method but with comparable computation time. This paper describes a new extension of that projector, called the SF-TT projector, that uses trapezoid functions in both directions. We show that using a trapezoid along the axial direction improves projector accuracy for voxels associated w...
Real-time Traffic| Added | 22 May 2011 |
| Updated | 22 May 2011 |
| Type | Journal |
| Year | 2010 |
| Where | TMI |
| Authors | Yong Long, Jeffrey A. Fessler, James M. Balter |
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