Processing apparatus, system, biometric authentication system, processing method, and computer readable medium

What is claimed is: 1 . A processing apparatus comprising: one or more processors; a memory storing executable instructions that, when executed by the one or more processors, causes the one or more processors to perform as: a unit that calculates, from three-dimensional luminance data indicating an authentication target, depth dependence of striped pattern sharpness in a plurality of regions on a plane perpendicular to a depth direction of the authentication target; a unit that calculates a depth at which the striped pattern sharpness is the greatest in the depth dependence of striped pattern sharpness; a rough adjustment unit that corrects the calculated depth on the basis of depths of other regions positioned respectively around the plurality of regions; a fine adjustment unit that selects a depth closest to the corrected depth and at which the striped pattern sharpness is at an extreme; and a unit that extracts an image with a luminance on the basis of the selected depth. 2 . The processing apparatus according to claim 1 , further comprising: a unit that calculates for each region a difference amount between roughly adjusted depth information indicating the corrected depth and finely adjusted depth information indicating the selected depth, wherein, in a case in which the difference amount is no less than a threshold value, the rough adjustment unit re-corrects the corrected depth on the basis of depths of other regions positioned respectively around the plurality of regions and the fine adjustment unit re-selects, as the re-corrected depth, a depth closest to the re-corrected depth and at which the striped pattern sharpness is at an extreme; a unit that calculates for each region a difference amount between roughly re-adjusted depth information indicating the re-corrected depth and finely re-adjusted depth information indicating the re-selected depth; and a unit that extracts the image with the luminance on the basis of the re-selected depth in a case in which the difference amount is less than the threshold value. 3 . The processing apparatus according to claim 1 , further comprising a unit that restricts calculation of the depth dependence of the striped pattern sharpness to a specified depth. 4 . The processing apparatus according to claim 1 , further comprising a unit that determines spatial frequency of the striped pattern from the three-dimensional luminance data and then calculates a range of the regions. 5 . The processing apparatus according to claim 1 , wherein the striped pattern sharpness indicates unidirectionality of the striped pattern in the regions. 6 . The processing apparatus according to claim 1 , wherein the striped pattern sharpness indicates unity of spatial frequency in the regions. 7 . The processing apparatus according to claim 1 , wherein the striped pattern sharpness indicates uniformity of luminance in each of light and dark portions in the regions. 8 . The processing apparatus according to claim 1 , wherein the striped pattern sharpness indicates uniformity with respect to widths of light and dark stripes in the regions. 9 . The processing apparatus according to claim 1 , wherein the striped pattern sharpness is a combination of the striped pattern sharpnesses that indicates unidirectionality of the striped pattern in the regions, unity of spatial frequency in the regions, uniformity of luminance in each of light and dark portions in the regions and uniformity with respect to widths of light and dark stripes in the regions, respectively. 10 . The processing apparatus according to claim 1 , wherein the rough adjustment unit employs a median filter. 11 . The processing apparatus according to claim 1 , wherein the rough adjustment unit employs a bilateral filter. 12 . The processing apparatus according to claim 1 , wherein the rough adjustment unit employs a filter for spatial frequency. 13 . A system comprising: an apparatus configured to acquire three-dimensional luminance data indicating a recognition target; and The processing apparatus according to claim 1 , wherein the system is configured to acquire a tomographic image having a striped pattern inside the recognition target. 14 . A biometric authentication system comprising: an apparatus configured to acquire three-dimensional luminance data indicating a living body as a recognition target; The processing apparatus according to claim 1 ; and a processing apparatus configured to compare a tomographic image having a striped pattern inside the recognition target with image data associated with individual information, wherein the biometric authentication system is configured to identify an individual through comparison between the tomographic image and the image data. 15 . A processing method comprising: a step of calculating, from three-dimensional luminance data indicating an authentication target, depth dependence of striped pattern sharpness in a plurality of regions on a plane perpendicular to a depth direction of the authentication target; a step of calculating a depth at which the striped pattern sharpness is the greatest in the depth dependence of striped pattern sharpness; a step of correcting the calculated depth on the basis of depths of other regions positioned respectively around the plurality of regions; a step of selecting a depth closest to the corrected depth and at which the striped pattern sharpness is at an extreme; and a step of extracting an image with a luminance on the basis of the selected depth. 16 . A non-transitory computer readable medium storing a program causing a computer to perform: a step of calculating, from three-dimensional luminance data indicating an authentication target, depth dependence of striped pattern sharpness in a plurality of regions on a plane perpendicular to a depth direction of the authentication target; a step of calculating a depth at which the striped pattern sharpness is the greatest in the depth dependence of striped pattern sharpness; a step of correcting the calculated depth on the basis of depths of other regions positioned respectively around the plurality of regions; a step of selecting a depth closest to the corrected depth and at which the striped pattern sharpness is at an extreme; and a step of extracting an image with a luminance on the basis of the selected depth.