Conductive film manufacturing method, conductive film, and recording medium

The invention claimed is: 1. A method for manufacturing a conductive film comprising: a position selecting step for selecting plural positions from among a predetermined two-dimensional image region; an image data generating step for generating image data representing the pattern of a mesh pattern based on the selected plural positions; an evaluation value calculating step for calculating an evaluation value obtained by quantifying noise characteristics of the mesh pattern based on the generated image data; an image data determining step for determining as output image data one of the image data based on the calculated evaluation value and predetermined evaluation conditions; and a forming step of outputting and forming wire a material on a substrate material based on the determined output image data to thereby manufacture the conductive film having the mesh pattern. 2. The method for manufacturing a conductive film according to claim 1 , further comprising: a structural pattern input step of inputting visual information of the pattern material in relation to visibility of the structural pattern in the case that a pattern material for forming a structural pattern having a pattern different from the pattern of the mesh pattern is superimposed on the conductive film and visual confirmation thereof is performed; and an image information estimating step of estimating image information of the structural pattern based on the input visual information of the pattern material, wherein based on the estimated structural pattern image information, the image data generating step generates the image data representing a pattern in which the structural pattern is superimposed on the mesh pattern. 3. The method for manufacturing a conductive film according to claim 2 , wherein at least one of a type, a color value, an optical transmittance, and an optical reflectance of the pattern material, and an arrangement position, a unit shape, and a unit size of the structural pattern is included in the visual information of the pattern material. 4. The method for manufacturing a conductive film according to claim 2 , wherein the pattern material comprises a black matrix. 5. The method for manufacturing a conductive film according to claim 1 , further comprising: a first input step of inputting visual information of the wire material in relation to the visibility of the mesh pattern; a second input step of inputting visual information of the substrate material in relation to the visibility of the mesh pattern; and an estimating step of estimating image information of the mesh pattern based on the input visual information of the wire material and the substrate material, wherein, in the image data generating step, the image data is generated based on the estimated image information of the mesh pattern. 6. The method for manufacturing a conductive film according to claim 1 , wherein the evaluation value is an evaluation value representative of a degree of granularity. 7. The method for manufacturing a conductive film according to claim 6 , wherein the evaluation value is an RMS granularity. 8. The method for manufacturing a conductive film according to claim 7 , wherein the evaluation value is an RMS granularity corrected by a human visual response characteristic function. 9. The method for manufacturing a conductive film according to claim 8 , wherein the human visual response characteristic function is a Dooley-Shaw function. 10. The method for manufacturing a conductive film according to claim 8 , wherein the corrected RMS granularity is an RMS granularity calculated using new image data obtained by effecting a filtering process corresponding to the human visual response characteristic function with respect to the image data. 11. The method for manufacturing a conductive film according to claim 1 , wherein in the image data generating step, a mesh-shaped pattern is formed from the plural positions using a Delaunay triangulation method, and image data representing the pattern is created. 12. The method for manufacturing a conductive film according to claim 1 , wherein in the image data generating step, a mesh-shaped pattern is formed from the plural positions using a Voronoi diagram, and image data representing the pattern is created. 13. The method for manufacturing a conductive film according to claim 1 , further comprising: a position updating step of respectively updating part of the plural positions with other positions based on the evaluation value, wherein the position updating step, the image data generating step, and the evaluation value calculating step are repeated successively, and the output image data is determined by the image data determining step. 14. The method for manufacturing a conductive film according to claim 13 , wherein, in the position updating step, the part of the plural positions are updated with the other positions respectively using a simulated annealing method. 15. A conductive film which is manufactured using the manufacturing method of claim 1 . 16. A non-transitory recording medium storing a program for enabling a computer to create output image data for use in manufacturing a conductive film, wherein the program further enables the computer to function as: a position selecting unit for selecting plural positions from among a predetermined two-dimensional image region; an image data generating unit for generating image data representing the pattern of a mesh pattern based on the plural positions selected by the position selecting unit; an evaluation value calculating unit for calculating an evaluation value obtained by quantifying noise characteristics of the mesh pattern based on the image data generated by the image data generating unit; and an image data determining unit for determining as output image data one of the image data based on the evaluation value calculated by the evaluation value calculating unit and predetermined evaluation conditions.