Tyre for a road vehicle, comprising fins

The invention claimed is: 1. A tyre for a road vehicle, the tyre having a predetermined direction of rotation, the tyre comprising a plurality of fins for modifying one of: a drag of the vehicle and a lift of the vehicle, wherein: the fins are arranged on a sidewall of the tyre, a group G of the fins includes at least 60% of the fins, wherein: each fin of the group G includes a junction with the sidewall, for each junction, a projection of the junction in a projection plane perpendicular to an axis of revolution of the tyre is substantially curved, and has an origin at a radially outer end, each fin is arranged to form, in the projection plane, an angle α between: a reference line, which is a straight line passing through the origin and the axis of revolution of the tyre, and a straight line representing an average tilt of the projection of the junction and passing through the origin, the average tilt includes: an average tilt in relation to an inclination of the projection of the junction at the origin, equal to an angle α 1 between the reference line and a tangent to the projection of the junction at the origin, and an average tilt in relation to a curvature of the projection of the junction, equal to an angle α 2 between the tangent to the projection of the junction at the origin and an average line, which is a straight line passing through the origin, the average line and the projection of the junction crossing each other at an intersection point, wherein the projection of the junction includes a first portion lying between the origin and the intersection point and a second portion lying between the intersection point and a radially inner end of the projection of the junction, and wherein the average line includes a first portion lying between the origin and the intersection point and a second portion lying between the intersection point and an orthogonal projection of a radially inner end on the average line, the average line being such that areas lying between, respectively, the first portions and the second portions of the projection of the junction and the average line are substantially equal, the angle α being counted positively in the direction of rotation of the tyre, starting from the reference line, such that: to increase the drag or the lift of the vehicle, the angle α has a value belonging to a predetermined domain formed by a range [−3π/8, −π/12], and, to reduce the drag or the lift of the vehicle, the angle α has a value belonging to a predetermined domain formed by a range [+π/12, +π/4], and each fin extends within a range ]D m , D M [ of distances from the axis of revolution of the tyre, a height of the fin varying continuously as a function of distance from the axis of revolution of the tyre, with every point of maximum height of the fin with respect to the sidewall of the tyre being at a distance from the axis of revolution of the tyre that is less than or equal to D m +0.40(D M −D m ). 2. The tyre according to claim 1 , wherein, for each fin of the group G, to increase the drag or the lift of the vehicle, the value of the angle α belongs to a domain formed by a range [−3π/8, −π/8]. 3. The tyre according to claim 1 , wherein, for each fin of the group G, to increase the drag of the vehicle, the value of the angle α belongs to a domain formed by a range [−π/4, −π/8], and, to reduce the drag of the vehicle, the value of the angle α belongs to a domain formed by a range [+π/8, +π/4]. 4. The tyre according to claim 1 , wherein, for each fin of the group G, the value of the angle α belongs to a domain formed by a range [+π/8, +π/4]. 5. The tyre according to claim 1 , wherein, for each fin of the group G, to increase the lift of the vehicle, the value of the angle α belongs to a domain formed by a range [−3π/8, −π/12]. 6. The tyre according to claim 1 , wherein, for each fin of the group G, between a point of the fin located substantially at a maximum distance D M from the axis of revolution of the tyre and at least one point of maximum height of the fin, a height of the fin increases constantly over at least 50% of the range ]D m , D M [ of distances from the axis of revolution of the tyre. 7. The tyre according to claim 2 , wherein, for each fin of the group G, between a point of the fin located substantially at a maximum distance D M from the axis of revolution of the tyre and at least one point of maximum height of the fin, a height of the fin increases constantly over at least 50% of the range ]D m , D M [ of distances from the axis of revolution of the tyre. 8. The tyre according to claim 3 , wherein, for each fin of the group G, between a point of the fin located substantially at a maximum distance D M from the axis of revolution of the tyre and at least one point of maximum height of the fin, a height of the fin increases constantly over at least 50% of the range ]D m , D M [ of distances from the axis of revolution of the tyre. 9. The tyre according to claim 4 , wherein, for each fin of the group G, between a point of the fin located substantially at a maximum distance D M from the axis of revolution of the tyre and at least one point of maximum height of the fin, a height of the fin increases constantly over at least 50% of the range ]D m , D M [ of distances from the axis of revolution of the tyre. 10. The tyre according to claim 5 , wherein, for each fin of the group G, between a point of the fin located substantially at a maximum distance D M from the axis of revolution of the tyre and at least one point of maximum height of the fin, a height of the fin increases constantly over at least 50% of the range ]D m , D M [ of distances from the axis of revolution of the tyre. 11. The tyre according to claim 1 , wherein a position of any point of maximum width of the tyre is located at a distance from the axis of revolution of the tyre that is less than D M −0.30(D M −D m ). 12. The tyre according to claim 1 , wherein, for each fin of the group G, the fin does not include any point having a same circumferential angular position as any point of another fin located on the sidewall of the tyre, in projection on the projection plane perpendicular to the axis of revolution of the tyre. 13. The tyre according to claim 1 , wherein a number of fins arranged on the sidewall is in a range from 10 to 28, with each fin belonging to the group G. 14. The tyre according to claim 1 , wherein each fin of the group G does not form a cavity. 15. The tyre according to claim 1 , further comprising reinforcing threads that operate in a pressure range from 0.12 MPa to 1.0 MPa. 16. The tyre according to claim 1 , further comprising a mark indicating the predetermined direction of rotation. 17. The tyre according to claim 1 , wherein α 2 ≠0. 18. The tyre according to claim 1 , wherein α 1 ≠0 and α 2 ≠0. 19. A road vehicle, comprising at least one tyre mounted thereon, each tyre having a predetermined direction of rotation, and each tyre including a plurality of fins for modifying at least one of: a drag of the vehicle and a lift of the vehicle, wherein: the fins are arranged on a sidewall of the tyre, a group G of the fins includes at least 60% of the fins, wherein: each fin of the group G includes a junction with the sidewall, for each junction, a projection of the junction in a projection plane perpendicular to an axis of revolution of the tyre is substantially curved, and has an origin at a radially outer end, each fin is arranged to form, in the projection plane, an angle α between: a reference line, which