Automotive headlamp apparatus

The invention claimed is: 1. An automotive headlamp apparatus comprising: a light source in which a plurality of semiconductor light-emitting elements are arranged at intervals from each other; and a projection lens configured to project light, emitted from the light source, toward a front area of a vehicle as a light source image, wherein the semiconductor light-emitting elements are located in front of a focal point of the projection lens. 2. An automotive headlamp apparatus according to claim 1 , wherein the semiconductor light-emitting elements are arranged such that a light emitting surface of the semiconductor light-emitting element faces the front area of the vehicle. 3. An automotive headlamp apparatus according to claim 1 , wherein the light emitting surface of the semiconductor light-emitting element is of a rectangular shape, and the semiconductor light-emitting element is arranged such that a side thereof is tilted with respect to a vehicle width direction. 4. An automotive headlamp apparatus according to claim 1 , wherein the semiconductor light-emitting element and the projection lens are positioned such that a distance between the semiconductor light-emitting element and the projection lens is less than or equal to 0.98f, where f [mm] denotes a focal length of the projection lens. 5. An automotive headlamp apparatus according to claim 1 , wherein the semiconductor light-emitting element and the projection lens are positioned such that a distance between the semiconductor light-emitting element and the projection lens is greater than or equal to (( P−W )/ P )× f, where f [mm] denotes a focal length of the projection lens, W [mm] denotes a side length of a light emitting surface of the semiconductor light-emitting element, and P [mm] denotes a pitch between the adjacent semiconductor light-emitting elements. 6. An automotive headlamp apparatus comprising: a light source in which a plurality of semiconductor light-emitting elements are arranged in a matrix, the light source being configured to irradiate light toward a front area of a vehicle; and a control unit configured to control the turning on and off of the plurality of semiconductor light-emitting elements included in the light source, the plurality of semiconductor light-emitting elements including: a plurality of first semiconductor light-emitting elements for emitting light to a first section contained in an illumination region in the front area of the vehicle; and a plurality of second semiconductor light-emitting elements for emitting light to a second section, which is different from the first section, contained in the illumination region, wherein the second semiconductor light-emitting element has a characteristic different from that of the first semiconductor light-emitting element, the control unit including: a first drive unit for driving, per group, the plurality of first semiconductor light-emitting elements, which are divided into groups, wherein the number of groups is smaller than the number of first semiconductor light-emitting elements; and a second drive unit for driving, per group, the plurality of second semiconductor light-emitting elements, which are divided into groups, wherein the number of groups is smaller than the number of second semiconductor light-emitting elements. 7. An automotive headlamp apparatus according to claim 6 , wherein the first semiconductor light-emitting element is constituted by an element whose luminance differs from that of the second semiconductor light-emitting element when the same current is supplied thereto. 8. An automotive headlamp apparatus according to claim 6 , wherein the first semiconductor light-emitting element is constituted by an element whose maximum forward current rating differs from that of the second semiconductor light-emitting element. 9. An automotive headlamp apparatus according to claim 6 , wherein the first semiconductor light-emitting elements are arranged such that the first section contains a central portion of the illumination region, and wherein a control unit controls the turning on and off of the first semiconductor light-emitting elements and the second semiconductor light-emitting elements such that the luminance of the first semiconductor light-emitting elements is higher than that of the second semiconductor light-emitting elements. 10. An automotive headlamp apparatus according to claim 6 , wherein the plurality of semiconductor light-emitting elements are arranged such that light emitting surfaces of the semiconductor light-emitting elements face the front area of the vehicle. 11. An automotive headlamp apparatus according to claim 6 , wherein a light emitting surface of each of the plurality of semiconductor light-emitting elements is of a rectangular shape, and each of the plurality of semiconductor light-emitting elements is arranged such that a side thereof is tilted with respect to a vehicle width direction. 12. An automotive headlamp apparatus according to claim 6 , wherein the plurality of first semiconductor light-emitting elements are arranged in a first block of a region where the semiconductor light-emitting elements are arranged in a matrix; and the plurality of second semiconductor light-emitting elements are arranged in a second block of the region where the semiconductor light-emitting elements are arranged in the matrix, the second block being different from the first block. 13. An automotive headlamp apparatus comprising: a light source in which a plurality of semiconductor light-emitting elements are arranged at intervals from each other; a projection lens configured to project light, emitted from the light source, toward a front area of a vehicle as a light source image; and a magnification varying mechanism configured to vary a magnifying power of the light source image, the magnification varying mechanism being provided on the projection lens at a front side of the vehicle. 14. An automotive headlamp apparatus according to claim 13 , wherein the plurality of semiconductor light-emitting elements are located in front of a focal point of the projection lens. 15. An automotive headlamp apparatus according to claim 13 , wherein the semiconductor light-emitting elements are arranged such that a light emitting surface of the semiconductor light-emitting element faces the front area of the vehicle. 16. An automotive headlamp apparatus according to claim 13 , wherein the light emitting surface of the semiconductor light-emitting element is of a rectangular shape, and the semiconductor light-emitting element is arranged such that a side thereof is tilted with respect to a vehicle width direction. 17. An automotive headlamp apparatus according to claim 13 , wherein the magnification varying mechanism is an optical system configured such that a magnifying power change in the vehicle width direction of the light source image is larger than a magnifying power change in a vertical direction thereof. 18. An automotive headlamp apparatus according to claim 17 , wherein the optical system is an anamorphic lens system.