Method for determining optical sensing correction parameters, biological feature detection apparatus and electronic terminal

What is claimed is: 1. A method for determining optical sensing correction parameters, comprising: subjecting a plurality of optical sensing units in an optical sensing array to irradiation respectively with the use of a plurality of groups of optical signals, wherein each optical sensing unit generates a group of output data once under irradiation of each group of optical signals; determining a light intensity of this group of optical signals according to the output data generated by the plurality of optical sensing units once under irradiation of the same group of optical signals; and determining optical sensing correction parameters of the plurality of optical sensing units according to the output data generated by the plurality of optical sensing units once under irradiation of the plurality of groups of optical signals and the light intensities of the plurality of groups of optical signals. 2. The method according to claim 1 , wherein the plurality of optical sensing units in the optical sensing array are sequentially irradiated with the use of the plurality of groups of optical signals at a constant light environment. 3. The method according to claim 2 , wherein the constant light environment is implemented by: covering a surface-uniform object on a surface of an electronic terminal using the optical sensing array, or placing the electronic terminal using the optical sensing array in a darkroom. 4. The method according to claim 1 , wherein the plurality of groups of optical signals are generated by a light source arranged outside an electronic terminal using the optical sensing array, or are generated by a display light source inside the electronic terminal. 5. The method according to claim 1 , wherein the determining a light intensity of this group of optical signals according to the output data generated by the plurality of optical sensing units once under irradiation of the same group of optical signals comprises: respectively determining a plurality of first statistical values according to a plurality of pieces of output data generated by the plurality of optical sensing units once under irradiation of the same group of optical signals, wherein each first statistical value corresponds to an optical sensing unit; and determining a light intensity of each group of optical signals according to the plurality of first statistical values. 6. The method according to claim 5 , wherein the first statistical value is an average value of a group of output data generated by a corresponding optical sensing unit once under irradiation of a group of optical signals. 7. The method according to claim 5 , wherein the determining a light intensity of each group of optical signals according to the plurality of first statistical value comprises: determining a second statistical value corresponding to a group of optical signals according to the plurality of first statistical values, and using the second statistical value as the light intensity of this group of optical signals. 8. The method according to claim 7 , wherein the second statistical value is an average value of the plurality of first statistical values. 9. The method according to claim 1 , wherein determining optical sensing correction parameters of the plurality of optical sensing units according to the output data generated by the plurality of optical sensing units once under irradiation of the plurality of groups of optical signals and the light intensities of the plurality of groups of optical signals comprises: determining an output data variation of each optical sensing unit once under irradiation of the plurality of groups of optical signals according to the output data generated by the plurality of optical sensing units once under irradiation of the plurality of groups of optical signals and the light intensities of the plurality of groups of optical signals; and determining optical sensing correction parameters of the plurality of optical sensing units according to the output data variation of each optical sensing unit once under irradiation of the plurality of groups of optical signals. 10. The method according to claim 9 , wherein the determining optical sensing correction parameters of the plurality of optical sensing units according to the output data variation of each optical sensing unit once under irradiation of the plurality of groups of optical signals comprises: determining the output data variation of each optical sensing unit once under irradiation of different groups of optical signals according to a linear fitting parameter between a plurality of groups of output data and the plurality of groups of optical signals; and determining the optical sensing correction parameters of the plurality of optical sensing units according to the output data variation of each optical sensing unit once under irradiation of different groups of optical signals. 11. The method according to claim 10 , wherein the linear fitting parameter between the plurality of groups of output data and the plurality of groups of optical signals is obtained by: performing two different statistical value calculations for the light intensities of the plurality of groups of optical signals to obtain a third statistical value and a fourth statistical value; and determining the linear fitting parameter between the plurality of groups of output data and the plurality of groups of optical signals according to the third statistical value and the fourth statistical value. 12. The method according to claim 11 , wherein the third statistical value is an average value of first powers of the light intensities of the plurality of groups of optical signals, and the fourth statistical value is an average value of squares of the light intensities of the plurality of groups of optical signals. 13. The method according to claim 11 , wherein the linear fitting parameter is determined according to a difference between the third statistical value and the fourth statistical value. 14. The method according to claim 10 , wherein the determining the output data variation of each optical sensing unit once under irradiation of different groups of optical signals according to a linear fitting parameter between a plurality of groups of output data and the plurality of groups of optical signals comprises: determining a fifth statistical value corresponding to the sensing unit according to the plurality of groups of output data generated by each sensing unit once under irradiation of the plurality of groups of optical signals; determining a sixth statistical value corresponding to each optical sensing unit according to the light intensities of the plurality of groups of optical signals and the plurality of groups of output data generated by each optical sensing unit once under irradiation of the plurality of groups of optical signals; and determining the linear fitting parameter between the plurality of groups of output data and the plurality of groups of optical signals according to the fifth statistical value and the sixth statistical value corresponding to each optical sensing unit. 15. The method according to claim 14 , wherein the fifth statistical value is an average value of the plurality of groups of output data generated by each optical sensing unit once under irradiation of the optical signals, and the sixth statistical value is an average value of products of the light intensities of the optical signals and the plurality of groups of output data. 16. The method according to claim 14 , wherein the linear fitting parameter is determined according to a difference between the f