Adaptive hydraulic cylinder with floating seal interface

The invention claimed is: 1. A hydraulic cylinder, comprising: a barrel; a piston slidably disposed within the barrel, the piston also being slidably disposed on a center rod within the barrel; a piston rod coupled to the piston, the piston rod having a hollow interior extending axially therethrough, the center rod having a rod stop through which fluid is delivered to the hollow interior of the piston rod, wherein the rod stop does not radially contact an interior surface of the piston rod; a first seal interface between the piston and the center rod to decouple a displacement axis of the piston from a longitudinal axis of the center rod; and a second seal interface between the piston and the barrel to decouple the piston from the barrel. 2. The hydraulic cylinder of claim 1 , wherein the first seal interface enables the piston to move in rotational and translational degrees of freedom with respect to the center rod. 3. The hydraulic cylinder of claim 1 , wherein the first seal interface comprises one of a separate floating insert member or a seal interface integrated with the piston. 4. The hydraulic cylinder of claim 1 , wherein the first seal interface makes a self-lining bearing with the center rod; and the first seal interface also makes a hydraulic seal with the piston. 5. The hydraulic cylinder of claim 4 , further comprising a gland in the seal interface placed to hold a seal at a pivot point to provide a freedom of movement of a longitudinal axis of the piston with respect to a longitudinal axis of the first seal interface. 6. The hydraulic cylinder of claim 1 , further comprising a single ring of bearing support around the piston to allow a freedom of movement of a longitudinal axis of the piston with respect to the displacement axis of the piston in the cylinder. 7. The hydraulic cylinder of claim 1 , further comprising: a piston rod support or cylinder endcap; a hole in the piston rod support or cylinder endcap for the piston rod; a bearing in the piston rod support or cylinder endcap to contact the piston rod in substantially a single ring of contact to provide a freedom of movement for a longitudinal axis of the piston rod with respect to a displacement axis of the piston in the cylinder. 8. The hydraulic cylinder of claim 7 , wherein when the hydraulic cylinder operates, the cylinder, the piston, the piston rod, and the center rod are free to self-align on slightly differently near axes while remaining fully constrained without over-constraint, while maintaining a hydraulic seal between the components of the hydraulic cylinder. 9. A misalignment-tolerant hydraulic actuator for a submersible pump, comprising: a cylinder barrel; a piston in the cylinder barrel to provide a reciprocating stroke; a piston rod connected to the piston to transfer the reciprocating stroke from the hydraulic actuator to the submersible pump, the piston rod having an axial passage extending through the piston rod to deliver actuating fluid; a center rod disposed in a bore through a central axis of the piston, the center rod having a rod stop through which the actuating fluid is delivered to the axial passage of the piston rod, wherein the rod stop does not radially contact an interior surface of the piston rod; a first interface between the center rod and the piston to decouple a displacement axis of the piston in the cylinder barrel from a longitudinal axis of the center rod; and a second interface between the piston and the cylinder barrel to decouple the piston from the cylinder barrel. 10. The misalignment-tolerant hydraulic actuator of claim 9 , wherein the first interface allows the piston and the center rod to slide in relation to each other along slightly differently linear axes without over-constraint while maintaining a hydraulic seal between the piston and the center rod. 11. The misalignment-tolerant hydraulic actuator of claim 9 , further comprising: the first interface comprising a first pivotable bearing; the second interface comprising a second pivotable bearing; and wherein when the misalignment-tolerant hydraulic actuator operates, the cylinder barrel, the piston, and the center rod are free to self-align on slightly differently linear axes without over-constraint while maintaining a hydraulic seal between the components of the misalignment-tolerant hydraulic actuator. 12. The misalignment-tolerant hydraulic actuator of claim 11 , further comprising: a stop on the center rod to move within a hollow bore of the piston rod; and wherein when the misalignment-tolerant hydraulic actuator operates, the cylinder barrel, the piston with piston rod, and the center rod are free to self-align on slightly different linear axes without over-constraint while maintaining a hydraulic seal between the components of the misalignment-tolerant hydraulic actuator. 13. The misalignment-tolerant hydraulic actuator of claim 9 , wherein the first interface decouples a linear axis of reciprocation of the piston from a longitudinal axis of the center rod without introducing a constraint between the piston and the center rod. 14. The misalignment-tolerant hydraulic actuator of claim 9 , wherein the first interface enables the piston to freely move and self-position in rotational and translational degrees of freedom with respect to the center rod.