Sole structure with progressively angled traction elements

The invention claimed is: 1. A sole structure for an article of footwear, comprising: an outsole having a maximum outsole length and extending along a longitudinal axis, wherein the maximum outsole length has an outsole midpoint, the outsole defines a central axis intersecting the outsole midpoint of the maximum outsole length of the outsole, the central axis is perpendicular to the longitudinal axis, and the outsole includes: an outsole body defining an inner body surface and an outer body surface opposite the inner body surface; a plurality of traction elements each extending from the outsole body away from the inner body surface; wherein each of the plurality of traction elements includes: a base coupled to the outer body surface, wherein the base has a maximum base length, and the maximum base length has a base midpoint; a tip spaced apart from the outer body surface; wherein each of the plurality of traction elements has a pitch defined by an angle between an incline vector and a vector normal to the outer body surface; wherein the incline vector extends from the base midpoint of the maximum base length of the base to the tip; and wherein the pitch of each of the plurality of traction elements increases as an increasing function of a distance from the central axis to a respective traction element of the plurality of traction elements, and such that each of the plurality of traction elements points toward the central axis. 2. The sole structure of claim 1 , wherein the outsole has a forefoot region, a heel region, and a midfoot region between the forefoot region and the heel region, each of the plurality of traction elements defines a traction axis, the traction axis intersects the tip and the longitudinal axis, the longitudinal axis is perpendicular to the traction axis, the traction axis is parallel to the vector normal to the outer body surface, at least one of the plurality of traction elements is located in the midfoot region, and the at least one of the plurality of traction elements that is located in the midfoot region is symmetrical about the traction axis. 3. The sole structure of claim 2 , wherein the angle of the plurality of traction elements increases as the distance from the central axis to the respective traction element of the plurality of traction elements increases. 4. The sole structure of claim 3 , wherein the base has a first base end and a second base end opposite the first base end, the maximum base length of the base is defined from the first base end to the second base end along the longitudinal axis, and each of the plurality of traction elements extends directly from the outer body surface of the outsole body, a distance from the first base end to the base midpoint along the longitudinal axis is equal to a distance from the second base end to the base midpoint along the longitudinal axis, the outsole includes a forwardmost edge and a rearmost edge opposite the forwardmost edge, the maximum outsole length is defined as a distance from the forwardmost edge to the rearmost edge of the outsole along the longitudinal axis, and a distance from the forwardmost edge to the outsole midpoint along the longitudinal axis is equal to a distance from the rearmost edge to the outsole midpoint along the longitudinal axis. 5. The sole structure of claim 4 , wherein at least one of the plurality of traction elements is located in the forefoot region and is not symmetrical about the traction axis. 6. The sole structure of claim 5 , wherein at least one of the plurality of traction elements is located in the heel region and is not symmetrical about the traction axis. 7. The sole structure of claim 1 , wherein the outsole defines a plurality of grooves extending through an entire thickness of the outsole body. 8. The sole structure of claim 1 , wherein the outsole has a forefoot region, a heel region, and a midfoot region between the forefoot region and the heel region, the plurality of traction elements are arranged in a plurality of rows that extends between the forefoot region and the heel region, the outsole has a perimeter that defines a perimeter contour, the perimeter contour has a variable perimeter curvature along the perimeter of the outsole, each of the plurality of rows has a row contour, the row contour has a variable row curvature, the outsole defines a distance from the longitudinal axis to a respective row of the plurality of rows, and the variable row curvature is closer to the variable perimeter curvature as the distance from the longitudinal axis to the respective row of the plurality of rows increases. 9. The sole structure of claim 1 , wherein the outsole includes a plurality of anti-rotation areas, the plurality of traction elements includes a group of traction elements at each of the plurality of anti-rotation areas, each traction element of the group of traction elements has a height that is greater than a height of each of the plurality of traction elements that is not located in the anti-rotation areas. 10. The sole structure of claim 9 , wherein the outsole includes a forefoot region, a heel region, and a midfoot region between the forefoot region and the heel region, the plurality of anti-rotation areas includes six anti-rotation areas each spaced apart from each other. 11. The sole structure of claim 10 , wherein at least two of the plurality of anti-rotation areas are in the forefoot region of the outsole. 12. The sole structure of claim 11 , wherein at least two of the plurality of anti-rotation areas are in the heel region of the outsole. 13. The sole structure of claim 12 , wherein the plurality of traction elements are arranged in a plurality of rows that extends between the forefoot region and the heel region, the group of the plurality of traction elements at each of the plurality of anti-rotation areas includes a first anti-rotation traction element, a second anti-rotation traction element, a third anti-rotation traction element, a fourth anti-rotation traction element, a fifth anti-rotation traction element, a sixth anti-rotation traction element, a seventh anti-rotation traction element, an eighth anti-rotation traction element, and a ninth anti-rotation traction element, and the first anti-rotation traction element, the second anti-rotation traction element, and the third anti-rotation traction element each having a same height, and the first anti-rotation traction element, the second anti-rotation traction element, and the third anti-rotation traction element are each disposed along a first row of the plurality of rows. 14. The sole structure of claim 13 , wherein the fourth anti-rotation traction element and the fifth anti-rotation traction element are disposed along a second row of the plurality of rows, and the second row of the plurality of rows is immediately adjacent to the first row of the plurality of rows. 15. The sole structure of claim 14 , wherein the sixth anti-rotation traction element is disposed along a third row of the plurality of rows, and the third row is immediately adjacent the second row of the plurality of rows. 16. The sole structure of claim 15 , wherein the seventh anti-rotation traction element and the eighth anti-rotation traction element are disposed along a fourth row of the plurality of rows, and the fourth row of the plurality of rows is immediately adjacent the first row of the plurality of rows. 17. The sole structure of claim 16 , wherein the ninth anti-rotation traction element is disposed along a fifth row of the plurality of rows that is immediately adjacent the fourth row of the plurality of ro