Adjustable negative stiffness systems

What is claimed is: 1. A variable stiffness structure, comprising: a first negative stiffness element configured to buckle in a first direction; a second negative stiffness element configured to buckle in a second direction opposite to the first direction; an actuator operatively coupled to ends of the first and second negative stiffness elements to control a stiffness of the variable stiffness structure; and at least one resilient element between the first and second negative stiffness elements and configured to bias the first and second negative stiffness elements to buckle into symmetrically opposed shapes, wherein the first negative stiffness element and the second negative stiffness element are mode- 3 buckling beams. 2. The variable stiffness structure of claim 1 , wherein the first negative stiffness element comprises a first stack of at least two negative stiffness bucking beams, and wherein the second negative stiffness element comprises a second stack of at least two negative stiffness buckling beams. 3. The variable stiffness structure of claim 2 , further comprising: at least one first spacer between adjacent negative stiffness buckling beams of the first stack; and at least one second spacer between adjacent negative stiffness buckling beams of the second stack. 4. An adjustable negative stiffness system, comprising: a central shaft; a plurality of negative stiffness members radially arranged around the central shaft, each negative stiffness member of the plurality of negative stiffness members being configured to move between an unbuckled state and a buckled state; and an actuator configured to engage outer ends of the plurality of negative stiffness members to selectively move opposing pairs of the negative stiffness members between the unbuckled and buckled states, wherein the actuator comprises a cam having an inwardly-facing cam surface rotatable about the central shaft and surrounding the outer ends of the plurality of negative stiffness members, the inwardly-facing cam surface comprising a plurality of compression segments configured to buckle the negative stiffness members and a plurality of relaxation segments configured to unbuckle the negative stiffness members, wherein rotation of the cam in a first direction causes one negative stiffness member of the plurality of negative stiffness members to slide along one compression segment of the plurality of compression segments, and wherein continued rotation of the cam in the first direction causes the one negative stiffness member to slide from the one compression segment to one relaxation segment of the plurality of relaxation segments. 5. The adjustable negative stiffness system of claim 4 , wherein rotation of the cam is configured to sequentially move the opposing pairs of the negative stiffness members between the unbuckled and buckled states. 6. The adjustable negative stiffness system of claim 5 , wherein the inwardly-facing cam surface of the cam comprises a non-sinusoidal shape in a circumferential direction. 7. The adjustable negative stiffness system of claim 5 , wherein the inwardly-facing cam surface of the cam comprises an irregular shape in a circumferential direction. 8. The adjustable negative stiffness system of claim 4 , wherein each compression segment of the plurality of compression segments is configured to transition non-linearly between a first end spaced apart from a longitudinal axis of the central shaft by a first radial distance and a second end spaced apart from the longitudinal axis by a second radial distance less than the first radial distance. 9. The adjustable negative stiffness system of claim 4 , wherein each compression segment of the plurality of compression segments is spaced apart from a longitudinal axis of the central shaft by a substantially constant first radial distance and each relaxation segment of the plurality of relaxation segment is spaced apart from the longitudinal axis of the central shaft by a substantially constant second radial distance greater than the first radial distance. 10. The adjustable negative stiffness system of claim 4 , wherein a first pair of opposing negative stiffness members has a different configuration than a second pair of opposing negative stiffness members. 11. An adjustable negative stiffness system, comprising: a central shaft; a plurality of negative stiffness members radially arranged around the central shaft, each negative stiffness member of the plurality of negative stiffness members being configured to move between an unbuckled state and a buckled state; and an actuator configured to engage outer ends of the plurality of negative stiffness members to selectively move opposing pairs of the negative stiffness members between the unbuckled and buckled states, wherein the actuator comprises: a first pair of actuators coupled to a first pair of opposing negative stiffness members; a second pair of actuators coupled to a second pair of opposing negative stiffness members; a first valve coupled to the first pair of actuators configured to move between an open position and a closed position, wherein the first pair of actuators is configured to move the first pair of opposing negative stiffness members into the buckled state when the first valve is in the open position; and a second valve coupled to the second pair of actuators configured to move between an open position and a closed position, wherein the second pair of actuators is configured to move the second pair of opposing negative stiffness members into the buckled state when the second valve is in the open position. 12. The adjustable negative stiffness system of claim 11 , wherein the first and second pairs of actuators are selected from the group of actuators consisting of hydraulic actuators, pneumatic actuators, electromagnetic actuators, thermal actuators, piezoelectric actuators, and mechanical actuators. 13. The adjustable negative stiffness system of claim 11 , further comprising a power source coupled to the first and second pairs of actuators. 14. An adjustable negative stiffness system, comprising: a base; a plurality of negative stiffness members coupled to the base and arranged along a direction, each negative stiffness member of the plurality of negative stiffness members being configured to move between an unbuckled state and a buckled state; and a rotatable cam comprising a plurality of regions, each region having a cam surface configured to engage an end of one of the negative stiffness members opposite the base to move the one of the negative stiffness members between the unbuckled and buckled states. 15. The adjustable negative stiffness system of claim 14 , further comprising a crank configured to facilitate manual rotation of the rotatable cam or a motor configured to rotate the rotatable cam. 16. The adjustable negative stiffness system of claim 14 , wherein a first cam surface of a first region of the cam is different than a second cam surface of a second region of the cam. 17. The adjustable negative stiffness system of claim 14 , wherein a first cam surface of a first region of the cam is substantially the same as a second cam surface of a second region of the cam. 18. The adjustable negative stiffness system of claim 14 , further comprising a plurality of tensile members coupled to the plurality of negative stiffness members.