Apparatus and method for displaying holographic three-dimensional image

What is claimed is: 1. An apparatus for displaying a holographic three-dimensional (3D) image, the apparatus comprising: a memory configured to store instructions; and a processor configured to execute the stored instructions to implement: an image segmenter configured to segment an original image of an object into a plurality of segments, and adjust a number of the segments per unit volume or the number of the segments per unit area according to a property of a light representing the original image; a calculator configured to calculate diffraction fringe pattern information for displaying each of the plurality of segments as a 3D holographic image; and a light modulator configured to form a diffraction fringe pattern according to the diffraction fringe pattern information and generate the 3D holographic image corresponding to the original image by modulating a light incident on the diffraction fringe pattern, wherein the image segmenter is further configured to pre-store information about a reference number of the segments related to a region of the original image represented by a light having a visible wavelength, and set the number of the segments per unit volume or the number of the segments per unit area in a region of the original image represented by a light having an invisible wavelength to be less than the reference number. 2. The apparatus of claim 1 , wherein the image segmenter is further configured to adjust the number of the segments according to at least one selected from a shape of the object included in the original image and a position of the object included in the original image. 3. The apparatus of claim 2 , wherein the property of the light representing the original image includes at least one selected from a brightness of the light and a wavelength of the light. 4. The apparatus of claim 1 , wherein the image segmenter is further configured to segment the original image by using at least one selected from a mode of segmenting the original image into a plurality of layers according to a depth of the original image, a mode of segmenting the original image into a plurality of points, and a mode of segmenting a surface of the object included in the original image into a plurality of polygons. 5. The apparatus of claim 2 , wherein the image segmenter includes information about a reference number of the segments according to a curvature radius of a surface of the object or a change rate of the curvature radius of the surface, and is configured to set the number of the segments per unit volume or the number of the segments per unit area in a region having a large curvature radius or a region having a small change rate of the curvature radius to be less than the reference number. 6. The apparatus of claim 2 , wherein the image segmenter includes information about a reference thickness of the segments according to a curvature radius of a surface of the object or a change rate of the curvature radius of the surface, and is configured to segment the original image into a plurality of layers according to depth, and set a thickness of each of the plurality of layers in a region having a large curvature radius or a region having a small change rate of the curvature radius to be greater than the reference thickness. 7. The apparatus of claim 2 , wherein the image segmenter includes information about a reference volume or a reference area of the segments according to a curvature radius of a surface of the object or a change rate of the curvature radius of the surface , and is configured to segment the original image into a plurality of points, and set a volume or an area covered by each of the plurality of points in a region having a large curvature radius or a region having a small change rate of the curvature radius to be greater than the reference volume or the reference area. 8. The apparatus of claim 2 , wherein the image segmenter includes information about a reference area of the segments according to a curvature radius of a surface of the object or a change rate of the curvature radius of the surface, and is configured to segment the surface of the object into a plurality of polygons, and set an area of each of the plurality of polygons in a region having a large curvature radius or a region having a small change rate of the curvature radius to be greater than the reference area. 9. An apparatus for displaying a holographic three-dimensional (3D) image, the apparatus comprising: an image segmenter configured to segment an original image into a plurality of segments, and adjust a number of the segments per unit volume or the number of the segments per unit area; a calculator configured to calculate diffraction fringe pattern information for displaying each of the plurality of segments as a 3D holographic image; and a light modulator configured to form a diffraction fringe pattern according to the diffraction fringe pattern information and generate the 3D holographic image corresponding to the original image by modulating a light incident on the diffraction fringe pattern, wherein the image segmenter is further configured to pre-store information about a reference number of the segments related to a brightness of the original image, and is configured to set the number of the segments per unit volume or the number of the segments per unit area in a dark region of the original image to be less than the reference number. 10. An apparatus for displaying a holographic three-dimensional (3D) image, the apparatus comprising: an image segmenter configured to segment an original image into a plurality of segments, and adjust a number of the segments per unit volume or the number of the segments per unit area; a calculator configured to calculate diffraction fringe pattern information for displaying each of the plurality of segments as a 3D holographic image; and a light modulator configured to form a diffraction fringe pattern according to the diffraction fringe pattern information and generate the 3D holographic image corresponding to the original image by modulating a light incident on the diffraction fringe pattern, wherein the image segmenter is further configured to pre-store information about a reference number of the segments related to a visible region of the original image, and is configured to set the number of the segments per unit volume or the number of the segments per unit area in an invisible region of the original image to be less than the reference number in an invisible region of the original image. 11. The apparatus of claim 2 , wherein the image segmenter includes information about a reference number of the segments according to a depth of the original image, and is configured to set the number of the segments per unit volume or the number of the segments per unit area in a deep region of the original image to be less than the reference number. 12. The apparatus of claim 4 , wherein the image segmenter includes information about a reference thickness of the segments according to a depth of the original image, and is configured to segment the original image into a plurality of layers according to the depth, while setting a thickness of each of the plurality of layers in a deep region of the original image to be greater than the reference thickness. 13. A method for displaying a holographic three-dimensional (3D) image, the method comprising: segmenting an original image of an object into a plurality of segments, while adjusting a number of the segments per unit volume or the number of the segments per unit area according to a property of a light representing the original image; calculating diffraction fringe pattern information for displ