X-ray CT apparatus, upsampling method of projection data, and image reconstruction method

The invention claimed is: 1. An X-ray CT apparatus comprising: an X-ray tube device that performs irradiation with X-rays; an X-ray detector that is disposed to face the X-ray tube device and detects transmitted X-rays as X-rays transmitted through an object; a rotary disk on which the X-ray tube device and the X-ray detector are mounted and which rotates around the object; a scanner gantry on which the rotary disk is mounted; a couch on which the object is positioned; a scanning control unit that causes the couch and the scanner gantry to relatively move in a body-axial direction while causing the rotary disk to rotate and collects data of the transmitted X-rays detected by the X-ray detector; a projection-data converting unit that performs predetermined data processing on the collected data of transmitted X-rays and generates projection data required for reconstruction of a tomogram at a target slice position; an upsampled-projection-data generating unit that generates virtual counter data containing counter data acquired on substantially coincident X-ray transmission path in the projection data, thereby upsampling the projection data; a reconstruction calculating unit that reconstructs an image by using upsampled projection data as projection data subjected to upsampling; and a display unit that displays an image reconstructed by the reconstruction calculating unit. 2. The X-ray CT apparatus according to claim 1 , wherein the upsampled-projection-data generating unit inserts a virtual channel in a view of the projection data, generates a virtual-counter-data space by applying a value of the virtual channel as a value of a corresponding point in a virtual view on the counter data, and calculates values of channels in the virtual view by using the values of the corresponding points and generates upsampled projection data in the view direction. 3. The X-ray CT apparatus according to claim 1 , wherein the upsampled-projection-data generating unit inserts a virtual channel in a view of the acquired projection data, generates a virtual-counter-data space by applying the value of the virtual channel as a value of a corresponding point in a virtual view on the counter data, and calculates values of channels in the virtual view by using the values of the corresponding points on the virtual-counter-data space and generates upsampled projection data in a view direction and a channel direction. 4. The X-ray CT apparatus according to claim 1 , wherein the upsampled-projection-data generating unit inserts a virtual channel in a view of the acquired projection data, generates a virtual-counter-data space by applying the value of the virtual channel as a value of a corresponding point in a virtual view on the counter data, calculates values of channels in the virtual view by using the values of the corresponding points and generates upsampled projection data in a view direction, a channel direction, and a slice direction. 5. The X-ray CT apparatus according to claim 2 , wherein upsampling on projection data is performed by the upsampled-projection-data generating unit in a case where an inter-view distance is larger than an inter-channel distance. 6. The X-ray CT apparatus according to claim 1 , wherein the upsampled-projection-data generating unit performs interpolation calculation using a weight coefficient that is obtained by using an inter-view distance and an inter-channel distance, thereby upsampling the projection data. 7. An X-ray CT apparatus comprising: an X-ray tube device that performs irradiation with X-rays from a plurality of focus positions; an X-ray detector that is disposed to face the X-ray tube device and detects transmitted X-rays as X-rays transmitted through an object; a rotary disk on which the X-ray tube device and the X-ray detector are mounted and which rotates around the object; a scanner gantry on which the rotary disk is mounted; a couch on which the object is positioned; a focus-shifted-scanning control unit that causes the couch and the scanner gantry to relatively move in a body-axial direction while causing the rotary disk to rotate and collects data of the transmitted X-rays from the X-rays with which irradiation is performed by causing the focus position to shift to any positions; a projection-data converting unit that performs predetermined data processing on the collected data of transmitted X-rays from the focus positions and generates projection data required for reconstruction of a tomogram at a target slice position; an upsampled-projection-data generating unit that generates virtual counter data containing counter data acquired on substantially coincident X-ray transmission path in the projection data, generates a virtual view in a view direction, and combines items of projection data of focus positions in which the virtual view is inserted, thereby generating upsampled projection data; a reconstruction calculating unit that reconstructs an image by using the upsampled projection data; and a display unit that displays an image reconstructed by the reconstruction calculating unit. 8. The X-ray CT apparatus according to claim 7 , further comprising: a focus-shifted-projection-data generating unit that generates focus-shifted projection data acquired by combining items of the projection data at the focus positions without the virtual view inserted, wherein the image-reconstruction calculating unit reconstructs an image by using the focus-shifted projection data in a central region close to the center of the image from a predetermined boundary in an image plane, and by using the upsampled projection data in a peripheral region on an outer side from the boundary. 9. The X-ray CT apparatus according to claim 7 , further comprising: a focus-shifted-projection-data generating unit that generates focus-shifted projection data acquired by combining items of the projection data at the focus positions without the virtual view inserted, wherein the reconstruction calculating unit generates an image in which the focus-shifted projection data and the upsampled projection data are weighted and added in a predetermined ratio. 10. The X-ray CT apparatus according to claim 9 , wherein the reconstruction calculating unit sets a weight coefficient that is used in the weighted addition such that spatial resolution of the image is smoothly continuous in a boundary region including a predetermined boundary in an image plane. 11. The X-ray CT apparatus according to claim 9 , wherein the reconstruction calculating unit sets a range in which a weight coefficient that is used in the weighted addition changes such that predetermined spatial resolution is obtained at a predetermined position. 12. The X-ray CT apparatus according to claim 7 , further comprising: a focus-shifted-projection-data generating unit that generates focus-shifted projection data acquired by combining items of the projection data at the focus positions without the virtual view inserted; and a region-of-interest setting unit that sets a region of interest, wherein the reconstruction calculating unit further uses the focus-shifted projection data in the region of interest set by the region-of-interest setting unit. 13. The X-ray CT apparatus according to claim 7 , wherein the upsampled-projection-data generating unit generates upsampled projection data that is different in the number of views, and wherein the reconstruction calculating unit generates an image obtained by using the upsampled projection data that is different in the number of views depending on a distance from the center of the image in the image plane.