Concentric opposed cam actuator

What is claimed is: 1. A device, comprising: a rounded outer incline ramp surrounding a central axis; a rounded inner incline ramp surrounding the central axis with a smaller radius than the rounded outer incline ramp, wherein the rounded inner incline ramp and the rounded outer incline ramp are inversely aligned relative to the central axis; and a piston carrier oriented in a direction parallel to the central axis, comprising: a first piston comprising a first roller positioned on the rounded outer incline ramp and the rounded inner incline ramp at a first point, wherein the first piston is configured to act on the rounded outer incline ramp and the rounded inner incline ramp in a direction parallel to the central axis; and a second piston comprising a second roller positioned on the rounded outer incline ramp and the rounded inner incline ramp at a second point opposite the first point, wherein the second piston is configured to act on the rounded outer incline ramp and the rounded inner incline ramp in a direction parallel to the central axis. 2. The device of claim 1 , wherein the first point comprises a point at which surfaces of the rounded outer incline ramp and the rounded inner incline ramp have a same height orthogonal to the central axis. 3. The device of claim 1 , wherein each of the rounded outer incline ramp and the rounded inner incline ramp comprises a first semicircular portion extending from a lowest point to a highest point and a second semicircular portion opposite the first semicircular portion. 4. The device of claim 1 , wherein the rounded outer incline ramp and the rounded inner incline ramp have the same pitch. 5. The device of claim 1 , wherein the rounded inner incline ramp is fixed from rotation such that a linear motion of one of the first piston or the second piston toward the rounded inner incline ramp and the rounded outer incline ramp causes a rotation of the piston carrier and the rounded outer incline ramp. 6. The device of claim 5 , wherein the rounded outer incline ramp and the rounded inner incline ramp have the same pitch such that a linear motion by one of the first piston or the second piston toward the rounded inner incline ramp and the rounded outer incline ramp causes the rounded outer incline ramp to rotate twice as fast as the piston carrier. 7. The device of claim 1 , wherein the piston carrier is fixed from rotation such that a linear motion by one of the first piston or the second piston toward the rounded inner incline ramp and the rounded outer incline ramp causes a rotation of the rounded inner incline ramp and the rounded outer incline ramp in opposite directions. 8. The device of claim 7 , wherein the rounded outer incline ramp and the rounded inner incline ramp have the same pitch such that a linear motion by one of the first piston or the second piston toward the rounded inner incline ramp and the rounded outer incline ramp causes the rounded outer incline ramp to rotate at a same speed as the rounded inner incline ramp. 9. The device of claim 7 , wherein the rounded outer incline ramp and the rounded inner incline ramp have a different pitch such that a linear motion by one of the first piston or the second piston toward the rounded outer incline ramp and the rounded inner incline ramp causes the rounded outer incline ramp to rotate at a different speed than the rounded inner incline ramp. 10. The device of claim 1 , wherein the first roller comprises a first outer roller positioned along the rounded outer incline ramp and a first inner roller positioned along the rounded inner incline ramp such that the first outer roller and the first inner roller are configured to roll independently of each other. 11. The device of claim 1 , wherein at least one of the rounded outer incline ramp and the rounded inner incline ramp has a non-constant incline angle such that a linear motion by one of the first piston or the second piston toward the rounded outer incline ramp and the rounded inner incline ramp causes a rotation of at least one of the rounded outer incline ramp and the rounded inner incline ramp with non-constant speed. 12. A robotic system comprising: at least one rotational joint; and at least one actuator configured to enable rotation of the at least one rotational joint, wherein the at least one actuator comprises: a rounded outer incline ramp surrounding a central axis; a rounded inner incline ramp surrounding the central axis with a smaller radius than the rounded outer incline ramp, wherein the rounded inner incline ramp and the rounded outer incline ramp are inversely aligned relative to the central axis; and a piston carrier oriented in a direction parallel to the central axis, comprising: a first piston comprising a first roller positioned on the rounded outer incline ramp and the rounded inner incline ramp at a first point, wherein the first piston is configured to act on the rounded outer incline ramp and the rounded inner incline ramp in a direction parallel to the central axis; and a second piston comprising a second roller positioned on the rounded outer incline ramp and the rounded inner incline ramp at a second point opposite the first point, wherein the second piston is configured to act on the rounded outer incline ramp and the rounded inner incline ramp in a direction parallel to the central axis. 13. The robotic system of claim 12 , wherein the rounded inner incline ramp of an actuator from the at least one actuator is fixed from rotation and the rounded outer incline ramp of the actuator is coupled to a rotational joint from the at least one rotational joint such that a rotation of the rounded outer incline ramp produces a corresponding rotation of the rotational joint. 14. The robotic system of claim 13 , wherein the rounded outer incline ramp and the rounded inner incline ramp of the actuator have the same pitch such that a linear motion by one of the first piston or the second piston toward the rounded outer incline ramp and the rounded inner incline ramp of the actuator causes the rotational joint to rotate twice as fast as the piston carrier of the actuator. 15. The robotic system of claim 12 , wherein at least one of the rounded outer incline ramp and the rounded inner incline ramp of the actuator has a non-constant incline angle such that a linear motion by one of the first piston or the second piston toward the rounded outer incline ramp and the rounded inner incline ramp of the actuator causes the rotational joint to rotate at a non-constant speed. 16. The robotic system of claim 15 , wherein the at least one of the rounded outer incline ramp and the rounded inner incline ramp of the actuator that has the non-constant incline angle comprises a surface with a plurality of undulations. 17. The robotic system of claim 12 , wherein the first roller of the at least one actuator comprises a first outer roller positioned along the rounded outer incline ramp and a first inner roller positioned along the rounded inner incline ramp such that the first outer roller and the first inner roller are configured to roll independently of each other.