High stiffness self leveling platform

What is claimed is: 1 . A powered leveling base for positioning a payload structure relative to a surface, the powered leveling base comprising: a first plate structure adapted for receiving a payload structure, the first plate structure having at least three first connecting structures that are radially spaced apart about a center of the first plate structure; a second plate structure adapted for placement on a surface, the second plate structure having at least three second connecting structures that are radially spaced apart about a center of the second plate structure, the first plate structure and the second plate structure disposed in an opposing relationship, the second plate structure having a first portion and a second portion opposite the first portion; wherein at least one of the at least three first connecting structures corresponds to at least one of the at least three second connecting structures so as to form a pair of corresponding connecting structures disposed in opposing relationship; at least three electrically powered linear actuators, each having an actuator housing and a rod associated with the housing, the rod defining a rod end of the linear actuator and the housing defining a housing end of the linear actuator, wherein each rod extends and retracts linearly relative to the respective housing when the linear actuator is actuated, wherein each linear actuator is configured such that it cannot be back driven, and wherein all linear actuators can be actuated simultaneously whereby the rods of all linear actuators extend simultaneously or retract simultaneously to cause the first plate structure to translate linearly relative to the second plate structure; wherein each linear actuator is partially interposed between the first plate structure and the second plate structure so that the rod end is proximate to one plate structure and the housing end is proximate to the other plate structure, wherein the linear actuator operably connects with one pair of corresponding connecting structures; wherein each rod end is configured to connect to one of the at least three first connecting structures to form a swivel joint permitting rotation relative to the rod about exactly two axes; wherein each housing end is configured to connect to one of the at least three second connecting structures to form a rotational joint permitting rotation relative to the housing about exactly one axis and each housing extends through its respective connected one of the at least three second connecting structures such that the housing extends from the first portion of the second plate structure and past the second portion of the second plate structure; wherein each linear actuator can be independently actuated to thereby change at least one of an angular position and a distance of the first plate structure relative to the second plate structure; wherein the base is configured such that when the second plate structure is placed on the surface and the payload structure having a payload weight is placed on the first plate structure, the second portion of the second plate structure at least partially contacts the surface and each housing extends at least partially into the surface, the payload structure may be moved to a desired position by actuation of one or more of the linear actuators, and the payload weight is transferred from the first plate structure to the linear actuators, and then linearly from the linear actuators to the second plate structure and from the second plate structure to the surface; and wherein the second plate structure and the at least three second connecting structures are configured to minimize the bending moment exerted on the second plate from the payload weight when the second plate structure is placed on the surface. 2 . The powered leveling base of claim 1 , wherein: each electrically powered linear actuator comprises a jackscrew. 3 . The powered leveling base of claim 2 , wherein: each rod operably engages a drive member that is operably connected to an output shaft of an electric motor such that actuation of the electric motor causes the rod to shift linearly relative to the housing of the jackscrew; and each respective electric motor is disposed within its respective housing in a portion of the respective housing that extends at least partially into the surface. 4 . The powered leveling base of claim 3 , wherein: each rod includes at least one helical external gear; and each drive member comprises a driving shaft having at least one internal gear that operably engages the at least one helical external gear of each associated rod, each driving shaft disposed within its respective housing, whereby rotation of the driving shaft relative to the associated rod causes the rod to shift linearly relative to the respective housing. 5 . The powered leveling base of claim 4 , wherein: each jackscrew includes a gear assembly operably interconnecting the electric motor to the driving shaft. 6 . The powered leveling base of claim 3 , wherein: each electric motor comprises one of a servo motor or a stepper motor. 7 . The powered leveling base of claim 1 , wherein: at least one of the first connecting structure comprises a clevis extending radially outward from the center of the first plate structure; each swivel joint comprises a ball joint having a bushing with an opening and a spherical convex outer surface that slidably engages a concave spherical surface in an end of each rod, and a pin extending through openings in each clevis and through the opening of the bushing. 8 . The powered leveling base of claim 7 , wherein: at least one of the second connecting structures comprises a clevis extending radially outward from the center of the second plate structure; each rotational joint comprises a pair of bosses extending outwardly from each housing in opposite directions and rotationally engaging a clevis. 9 . The powered leveling base of claim 1 , wherein: the first connecting structures are disposed at 120° angles relative to one another at equal distances from the center of the first plate structure; the second connecting structures are disposed at 120° angles relative to one another at equal distances from the center of the second plate structure. 10 . An adjustable base for positioning a payload structure relative to a surface, the adjustable base comprising: a first structure adapted for receiving a payload structure, the first structure having at least three first connecting structures that are radially spaced apart about a center of the first structure; a second structure adapted for placement on a surface, the second structure having at least three second connecting structures that are radially spaced apart about a center of the second structure, the first structure and the second structure disposed in an opposing relationship, the second structure having a first portion and a second portion opposite the first portion; wherein at least one of the at least three first connecting structures corresponds to at least one of the at least three second connecting structures so as to form a pair of corresponding connecting structures disposed in opposing relationship; at least three legs operably interconnecting the first structure to the second structure; wherein at least two of the legs comprise electrically powered linear actuators, each having an actuator housing and a rod that extends and retracts linearly relative to the housing when the linear actuator is actuated, the rod defining a rod end of the linear actuator and the housing defining a housing end of the linear actuator, wherein each linear actuator is configured such that the rod does not extend or ret