Vein authentication method, image processing method, and vein authentication device

What is claimed is: 1. A vein authentication method comprising: converting into frequency components, pixel values of an image of an authentication site including veins, using a processor; filtering, using the processor, the frequency components obtained at the converting of the pixel values, according to a filter stored in a storage for reducing, from among low-frequency components having a lower spatial frequency than the spatial frequency of the veins and high-frequency components having a higher spatial frequency than the spatial frequency of the veins, frequency components corresponding to surface reflection of an illumination used for the authentication site, the filter having a filter coefficient that is used for multiplication in a section of the low-frequency components and that is set to a value that forms a downwardly convex parabola in the section; reverse-converting, using the processor, the filtered frequency components back into an image; extracting from the image obtained at the reverse-converting, vein data representing a vascular pattern of veins, using the processor; and performing, using the processor, vein authentication using the extracted vein data, wherein the filtering includes filtering the frequency components according to a filter for reducing low-frequency components that have a lower spatial frequency than the spatial frequency of the veins and that correspond to surface reflection of the illumination which is unevenly distributed on the authentication site, wherein the low-frequency components indicate the frequency components which have a lower spatial frequency than the spatial frequency of width of venous vessels, and correspond to the surface reflection which is unevenly distributed at a specific position of a palm. 2. The vein authentication method according to claim 1 , wherein the filtering includes filtering the frequency components according to a filter for reducing high-frequency components that have a higher spatial frequency than the spatial frequency of the veins and that correspond to a pattern on the surface of the authentication site. 3. The vein authentication method according to claim 1 , wherein the filter coefficient stored in the storage is a value for retaining a part of components in a wavelength band from 28 mm to 71 mm. 4. An image processing method comprising: converting into frequency components, pixel values of an image of an authentication site including veins, using a processor; filtering, using the processor, the frequency components obtained at the converting of the pixel values, according to a filter stored in a storage for reducing, from among low-frequency components having a lower spatial frequency than the spatial frequency of the veins and high-frequency components having a higher spatial frequency than the spatial frequency of the veins, frequency components corresponding to surface reflection of an illumination used for the authentication site, the filter having a filter coefficient that is used for multiplication in a section of the low-frequency components and that is set to a value that forms a downwardly convex parabola in the section; and reverse-converting, using the processor, the filtered frequency components back into an image, wherein the filtering includes filtering the frequency components according to a filter for reducing low-frequency components that have a lower spatial frequency than the spatial frequency of the veins and that correspond to surface reflection of the illumination which is unevenly distributed on the authentication site, wherein the low-frequency components indicate the frequency components which have a lower spatial frequency than the spatial frequency of width of venous vessels, and correspond to the surface reflection which is unevenly distributed at a specific position of a palm. 5. The image processing method according to claim 4 , wherein the filtering includes filtering the frequency components according to a filter for reducing high-frequency components that have a higher spatial frequency than the spatial frequency of the veins and that correspond to a pattern on surface of the authentication site. 6. A vein authentication device comprising: a memory that stores a filter for reducing, from among low-frequency components having a lower spatial frequency than the spatial frequency of veins and high-frequency components having a higher spatial frequency than the spatial frequency of veins, frequency components corresponding to surface reflection of an illumination used for an authentication site including the veins, the filter having a filter coefficient that is used for multiplication in a section of the low-frequency components and that is set to a value that forms a downwardly convex parabola in the section; and a processor coupled to the memory, wherein the processor executes a process comprising: converting into frequency components, pixel values of an image of the authentication site; filtering the frequency components at the converting of the pixel values, using the filter stored in the memory; reverse-converting the filtered frequency components back into an image; extracting from the image obtained at the reverse converting, vein data representing a vascular pattern of veins; and performing vein authentication using the extracted vein data, wherein the filtering includes filtering the frequency components according to a filter for reducing low-frequency components that have a lower spatial frequency than the spatial frequency of the veins and that correspond to surface reflection of the illumination which is unevenly distributed on the authentication site, wherein the low-frequency components indicate the frequency components which have a lower spatial frequency than the spatial frequency of width of venous vessels, and correspond to the surface reflection which is unevenly distributed at a specific position of a palm. 7. The vein authentication device according to claim 6 , wherein the filtering includes filtering the frequency components according to a filter for reducing high-frequency components that have a higher spatial frequency than the spatial frequency of the veins and that correspond to a pattern on surface of the authentication site.