Kinetic seat cushions for vehicles

What is claimed is: 1. A kinetic seat cushion assembly comprising: a primary seat cushion frame; a secondary seat cushion frame; a seat cushion tilt mechanism coupling the secondary seat cushion frame to the primary seat cushion frame such that the secondary seat cushion frame is movable with respect to the primary seat cushion frame; a front pivot mechanism that pivotally couples a front portion of the primary seat cushion frame to a front portion of the secondary seat cushion frame; and a pair of supplemental dampers, each supplemental damper having a first end pivotally coupled to the primary seat cushion frame and a second end pivotally coupled to the secondary seat cushion frame. 2. The kinetic seat cushion assembly of claim 1 , wherein the front pivot mechanism includes a ball joint pivotally coupling the primary seat cushion frame to the secondary seat cushion frame. 3. The kinetic seat cushion assembly of claim 2 , wherein the front pivot mechanism includes an adjustable damper configured to dampen movement between the primary seat cushion frame and the secondary seat cushion frame in a kinetic seat vertical direction. 4. The kinetic seat cushion assembly of claim 3 , wherein the adjustable damper comprises: a fixed arm coupled to the primary seat cushion frame; a pivotable arm coupled to the ball joint and pivotally coupled to fixed arm; and a biasing member positioned between the fixed arm and the pivotable arm, the biasing member configured to provide a damping effect between the primary seat cushion frame and the secondary seat cushion frame. 5. The kinetic seat cushion assembly of claim 4 , wherein the adjustable damper further comprises: a threaded shaft having a first end and an opposite second end, a portion of the threaded shaft extending through the pivotable arm; an anti-rotation plate coupled to one of the pivotable arm or the fixed arm; a traversing plate threadably engaging the threaded shaft, the traversing plate having a contact surface that contacts the anti-rotation plate, the biasing member positioned between the pivotable arm and the traversing plate; and a rotatable member coupled to the second end of the threaded shaft. 6. The kinetic seat cushion assembly of claim 5 , wherein upon rotation of the rotatable member in a first rotation direction the traversing plate is linearly displaced in a first linear direction to compress the biasing member which decreases the damping effect of the biasing member, and upon rotation of the rotatable member in a second rotation direction, opposite the first rotation direction, the traversing plate is linearly displaced in a second linear direction, opposite the first linear direction, which increases the damping effect of the biasing member. 7. The kinetic seat cushion assembly of claim 1 , wherein the seat cushion tilt mechanism couples a rear portion of the secondary seat cushion frame to the primary seat cushion frame. 8. The kinetic seat cushion assembly of claim 7 , wherein the seat cushion tilt mechanism includes a pair of seat cushion dampers, each seat cushion damper having a first end pivotally coupled to the primary seat cushion frame and a second end pivotally coupled to the secondary seat cushion frame. 9. The kinetic seat cushion assembly of claim 8 , wherein each seat cushion damper is configured to permit the rear portion of the secondary seat cushion frame to tilt with respect to the primary seat cushion frame as the front portion of the secondary seat cushion frame pivots about the front pivot mechanism with respect to the primary seat cushion frame. 10. The kinetic seat cushion assembly of claim 1 , wherein the pair of supplemental dampers are configured to control an amount of movement of the secondary seat cushion frame with respect to the primary seat cushion frame. 11. A vehicle comprising: a passenger compartment; and a kinetic seat cushion assembly within the passenger compartment, the kinetic seat cushion assembly including: a primary seat cushion frame; a secondary seat cushion frame; a seat cushion tilt mechanism coupling the secondary seat cushion frame to the primary seat cushion frame such that the secondary seat cushion frame is movable with respect to the primary seat cushion frame; a front pivot mechanism that pivotally couples a front portion of the primary seat cushion frame to a front portion of the secondary seat cushion frame; and a pair of supplemental dampers, each supplemental damper having a first end pivotally coupled to the primary seat cushion frame and a second end pivotally coupled to the secondary seat cushion frame. 12. The vehicle of claim 11 , wherein the front pivot mechanism includes a ball joint pivotally coupling the primary seat cushion frame to the secondary seat cushion frame. 13. The vehicle of claim 12 , wherein the front pivot mechanism includes an adjustable damper configured to dampen movement between the primary seat cushion frame and the secondary seat cushion frame in a kinetic seat vertical direction. 14. The vehicle of claim 13 , wherein the adjustable damper comprises: a fixed arm coupled to the primary seat cushion frame; a pivotable arm coupled to the ball joint and pivotally coupled to fixed arm; and a biasing member positioned between the fixed arm and the pivotable arm, the biasing member configured to provide a damping effect between the primary seat cushion frame and the secondary seat cushion frame. 15. The vehicle of claim 14 , wherein the adjustable damper further comprises: a threaded shaft having a first end and an opposite second end, a portion of the threaded shaft extending through the pivotable arm; an anti-rotation plate coupled to one of the pivotable arm or the fixed arm; a traversing plate threadably engaging the threaded shaft, the traversing plate having a contact surface that contacts the anti-rotation plate, the biasing member positioned between the pivotable arm and the traversing plate; and a rotatable member coupled to the second end of the threaded shaft. 16. The vehicle of claim 15 , wherein upon rotation of the rotatable member in a first rotation direction the traversing plate is linearly displaced in a first linear direction to compress the biasing member which decreases the damping effect of the biasing member, and upon rotation of the rotatable member in a second rotation direction, opposite the first rotation direction, the traversing plate is linearly displaced in a second linear direction, opposite the first linear direction, which increases the damping effect of the biasing member. 17. The vehicle of claim 11 , wherein the seat cushion tilt mechanism couples a rear portion of the secondary seat cushion frame to the primary seat cushion frame. 18. The vehicle of claim 17 , wherein the seat cushion tilt mechanism includes a pair of seat cushion dampers, each seat cushion damper having a first end pivotally coupled to the primary seat cushion frame and a second end pivotally coupled to the secondary seat cushion frame. 19. The vehicle of claim 18 , wherein each seat cushion damper is configured to permit the rear portion of the secondary seat cushion frame to tilt with respect to the primary seat cushion frame as the front portion of the secondary seat cushion frame pivots about the front pivot mechanism with respect to the primary seat cushion frame. 20. The vehicle of claim 11 , further comprising, wherein the pair of supplemental dampers are configured to control an amount of movement of the secondary seat cushion fra