Tomographically reconstructing a 3D image object corresponding to a data set includes for each step in a series of iteration steps, determining an updated object by performing a combined operation, which includes performing an update operation for updating an input object and performing a pixon smoo
Tomographically reconstructing a 3D image object corresponding to a data set includes for each step in a series of iteration steps, determining an updated object by performing a combined operation, which includes performing an update operation for updating an input object and performing a pixon smoothing operation, and following a last iteration, outputting one of the updated objects as the 3D image object.
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1. A tomographic reconstruction method for reconstructing a 3D image object corresponding to a data set, the method comprising: providing a pixon map;for each iteration step in a series of iteration steps of iterative reconstruction, determining, by a processor, an updated object by performing a com
1. A tomographic reconstruction method for reconstructing a 3D image object corresponding to a data set, the method comprising: providing a pixon map;for each iteration step in a series of iteration steps of iterative reconstruction, determining, by a processor, an updated object by performing a combined operation including:performing an update operation for updating an input object, andperforming a pixon smoothing operation for smoothing based on the pixon map; andfollowing a last iteration, outputting, by the processor, one of the updated objects as the 3D image object. 2. The method of claim 1, wherein performing the pixon smoothing operation of the combined operation creates a pixon smoothed object, which is updated by the update operation. 3. The method of claim 1, wherein performing the update operation of the combined operation creates an unsmoothed updated object, which is pixon smoothed by the pixon smoothing operation. 4. The method of claim 1, wherein the combined operation further includes: performing a first projection operation from a data space to an object space, thereby creating a projected object, and wherein the pixon smoothing operation smoothes the projected object. 5. The method of claim 1, wherein the pixon smoothing operation creates a pixon smoothed object and wherein the combined operation further includes, following performance of the pixon smoothing operation, performing a projection operation of the pixon smoothed object from the object space to the data space. 6. The method of claim 1, wherein the update operation includes performing the pixon smoothing operation. 7. The method of claim 1, wherein performing the update operation includes: performing a calculation based on a parameter object, and wherein the pixon smoothing operation is integrated into the update operation to smooth the parameter object. 8. The method of claim 7, wherein the parameter object is a parameter object of a non-negative least square fit algorithm. 9. The method of claim 1, further including: determining the pixon map. 10. The method of claim 1, further including: determining the pixon map based on the data set and an initial object. 11. The method of claim 10, wherein each iteration step further includes: updating the pixon map based on the data set and the updated object of the preceding update operation. 12. The method of claim 10, wherein each iteration step further includes: evaluating whether the update of the pixon map is necessary; andupdating the pixon map based on the result of the evaluation, the data set, and an updated object. 13. The method of claim 1, wherein each iteration step further includes: updating a parameter of the update operation. 14. The method of claim 1, wherein each iteration step further includes: executing a loop over subsets of the data set, wherein executing the loop includes performing the update operation. 15. The method of claim 14, wherein executing the loop further includes: performing the pixon smoothing operation. 16. The method of claim 14, wherein executing the loop further includes: updating the pixon map. 17. The method of claim 16, wherein executing the loop further includes: evaluating whether an update of the pixon map is necessary; andupdating the pixon map based on the result of the evaluation, the data set and an updated object of the image object. 18. The method of claim 16, wherein executing the loop further includes: updating a parameter of the update operation. 19. In a non-transitory computer readable medium having included software thereon, the software including instructions executable by a processor to tomographically reconstruct a 3D image object corresponding to a data set, the instructions comprising: for each iteration step in a series of iteration steps for iterative reconstruction, determining an updated object by performing a combined operation including:performing an update operation for updating an input object, andperforming a pixon smoothing operation; andfollowing a last iteration, outputting one of the updated objects as the 3D image object. 20. A nuclear imaging device for providing a 3D medical image, the device comprising: a detector unit for detecting radiation emitted from within a detecting area and providing a data set indicative of the detected radiation;an iterative reconstruction unit configured to perform, in each iteration step, a combined operation that includes an update operation for updating an input object and a pixon smoothing operation for smoothing based on a pixon map; andan output port for providing the 3D medical image. 21. The nuclear imaging device of claim 20, wherein the update operation is an update operation of a reconstruction algorithm selected from the group consisting of algorithms based on maximum likelihood, algorithms based on a penalty function, algorithms based on an ordered subset expectation maximization, algorithms based on a non-negative least square fit, and algorithms based on an ordered subset non-negative least square fit. 22. The nuclear imaging device of claim 20, wherein the reconstruction unit is configured to update the pixon map used within the pixon smoothing operation based on an updated image object. 23. The nuclear imaging device of claim 20, wherein the detector unit includes a detector system selected from the group consisting of a positron emission tomography detector system, a single photon computed tomography detector system and a computed tomography detector system.
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이 특허에 인용된 특허 (16)
Puetter, Richard; Yahil, Amos; Pi?a, Robert, Accelerated signal encoding and reconstruction using pixon method.
Cann Christopher E. (53 Carmel St. San Francisco CA 94117) Hasegawa Bruce H. (2303 Julie La. So. San Francisco CA 94080) Gingold Eric L. (4250 Gilbert St. Oakland CA 94611), Emission-transmission imaging system using single energy and dual energy transmission and radionuclide emission data.
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