Image processing apparatus, image processing method, and image processing system

What is claimed is: 1. An image processing apparatus comprising: a voxel coordinate data generation unit configured to generate voxel coordinate data in which respective brightness values are associated with coordinate values of respective voxels; and a coordinate conversion unit configured to convert the coordinate values of voxels to coordinate values of corresponding pixels on a projection plane at least with respect to a predetermined number of voxels in order from a voxel having a largest brightness value, and to execute rendering processing of a projection image by using brightness values of the corresponding voxels for the pixels obtained by the conversion, wherein the voxel coordinate data generation unit and the coordinate conversion unit are implemented by at least one processor of the image processing apparatus. 2. The image processing apparatus according to claim 1 , wherein in a case more than one voxel corresponds to a coordinate value of the same pixel, the coordinate conversion unit uses a voxel having a higher brightness value, or the brightness value of a voxel having a larger brightness value. 3. The image processing apparatus according to claim 1 , wherein the coordinate conversion unit (1) executes, in advance, processing of rearranging the voxel coordinate data in order of magnitude of the brightness values or in approximate order of magnitude of the brightness values, and (2) calculates coordinate values of the corresponding pixel in units of one or a plurality of voxels in order from a voxel having a higher brightness value, and executes rendering processing of a projection image by using the brightness value of the corresponding voxel for the pixel with the calculated coordinate values. 4. The image processing apparatus according to claim 1 , wherein after finishing rendering processing using, as objects to be processed, only a predetermined number of voxels in order from a voxel having a largest brightness value, the coordinate conversion unit executes rendering processing using brightness values of remaining voxels. 5. The image processing apparatus according to claim 1 , wherein when an enlarged display of the projection plane is instructed, the coordinate conversion unit executes rendering processing to linearly interpolate a partial region of the projection plane according to an enlargement ratio and to display the enlarged partial region. 6. The image processing apparatus according to claim 1 , wherein when a reduced display of the projection plane is instructed, the coordinate conversion unit executes rendering processing of a projection image by using the brightness value of the voxel subjected to the coordinate conversion for each pixel on the projection plane reduced according to a reduction ratio. 7. An image processing apparatus comprising: a voxel coordinate data generation unit configured to generate voxel coordinate data in which coordinate values of one or a plurality of voxels having a brightness value of the same magnitude are associated with each brightness value; and a coordinate conversion unit configured to convert the coordinate values of voxels to coordinate values of corresponding pixels on a projection plane at least with respect to a predetermined number of voxels in order from a voxel having a largest brightness value, and to execute rendering processing of a projection image by using brightness values of the corresponding voxels for the pixels obtained by the conversion, wherein the voxel coordinate data generation unit and the coordinate conversion unit are implemented by at least one processor of the image processing apparatus. 8. The image processing apparatus according to claim 7 , wherein the coordinate conversion unit calculates coordinate values of the corresponding pixels in units of one or a plurality of voxels in order from a voxel having a higher brightness value, and uses and executes rendering processing of a projection image by using the brightness value of the corresponding voxels for the pixels with the calculated coordinate values. 9. The image processing apparatus according to claim 7 , wherein after finishing rendering processing using, as objects to be processed, only a predetermined number of voxels in order from a voxel having a largest brightness value, the coordinate conversion unit executes rendering processing using brightness values of remaining voxels. 10. The image processing apparatus according to claim 7 , wherein when an enlarged display of the projection plane is instructed, the coordinate conversion unit executes rendering processing to linearly interpolate a partial region of the projection plane according to an enlargement ratio and to display the enlarged partial region. 11. An image processing method comprising: a voxel coordinate data generation step of generating voxel coordinate data in which respective brightness values are associated with coordinate values of respective voxels; a coordinate value conversion step of converting the coordinate values of voxels to coordinate values of corresponding pixels on a projection plane at least with respect to a predetermined number of voxels in order from a voxel having a largest brightness value; and a brightness display step of executing rendering processing of a projection image by using brightness values of the corresponding voxels for the pixels obtained by the conversion. 12. The image processing method according to claim 11 , further comprising a rearrangement step of executing processing of rearranging the voxel coordinate data in order of magnitude of the brightness values or in approximate order of magnitude of the brightness values, wherein, in the coordinate value conversion step, coordinate values of the corresponding pixels are calculated in units of one or a plurality of voxels in order from voxel coordinate data having a high brightness value, and wherein, in the brightness display step, the brightness value of the corresponding voxels are used and displayed for the pixels with the calculated coordinate values. 13. A non-transitory computer-readable storing medium storing an image processing program that causes a computer of an image processing apparatus for rendering a projection image based on three-dimensional volume data on a display unit to execute: a voxel coordinate data generation step of generating voxel coordinate data in which respective brightness values are associated with coordinate values of respective voxels constituting the three-dimensional volume data; a coordinate value conversion step of converting the coordinate values of voxels to coordinate values of corresponding pixels on a projection plane at least with respect to a predetermined number of voxels in order from a voxel having a largest brightness value; and a brightness display step of executing rendering processing of a projection image by using brightness values of the corresponding voxels for the pixels obtained by the conversion. 14. The non-transitory computer-readable storing medium according to claim 13 , the image processing program further causing the computer to execute a rearrangement step of executing processing of rearranging the voxel coordinate data in order of magnitude of the brightness values or in approximate order of magnitude of the brightness values, wherein, in the coordinate value conversion step, the computer is caused to execute a step of calculating coordinate values of the corresponding pixels in units of one or a plurality of voxels in order from voxel coordinate data having a high brightness value, and wherein, in the brightness display step, the computer is caused to execute a st