Rotary actuator driven vibration isolation

What is claimed is: 1. A vibration isolation system having a suspended platform, a base and an exoskeleton, the exoskeleton comprising; a first scissors mechanism comprising first and second main links of unequal length where the first and second main links are pivotably coupled to each other at an intermediate point, a second scissors mechanism comprising third and fourth main links of unequal length, where the third and fourth main links are pivotably coupled to each other at an intermediate point, and a rotary actuator for outputting a force to displace the suspended platform relative to the base over a range of travel, the rotary actuator comprising first and second rotors, wherein the rotary actuator is free to translate relative to the suspended platform and the vibration isolation system base, wherein the first main link is pivotably connected to the suspended platform and is also pivotably connected to a first secondary link, wherein the first secondary link is also pivotably connected to the base, wherein the second main link is pivotably connected to the base and is also pivotably connected to a second secondary link, wherein the second secondary link is also pivotably connected to the suspended platform, wherein the first and second scissors mechanism support the suspended platform relative to the base over an intended range of travel, wherein the first and second main links pass through parallel as the vibration isolation system is displaced over the intended range of travel and the third and fourth main links pass through parallel as the vibration isolation system is displaced over the intended range of travel. 2. The vibration isolation system of claim 1 wherein the secondary links are oriented in the same direction. 3. The vibration isolation system of claim 1 wherein the secondary links are parallel to each other. 4. The vibration isolation system of claim 2 wherein the secondary links are of equal length. 5. The vibration isolation system of claim 3 wherein the secondary links are of equal length. 6. The vibration isolation system of claim 1 wherein the relative rotation of the first and second rotors with respect to each other is less than one full revolution, for displacement of the suspended platform relative to the base over the intended range of travel.