Linkage Extension System with Damped Motion

1 . A linkage extension system, comprising: a movable cross member of a seat, the movable cross member movably coupled to a stationary member of the seat, the stationary member rigidly coupled to the seat, the movable cross member configured to translate along a movement plane to at least one of an extended position, a retracted position, and at least one intermediate position, the retracted position proximal to the seat and the extended position and at least one intermediate position distant from the seat; a pair of lower links rotationally coupled at a lower pivot joint with the stationary member, the pair of lower links configured to rotate within the movement plane; a pair of upper links rotationally coupled at an upper pivot joint with the movable cross member, the pair of upper links configured to rotate within the movement plane, the upper links and the lower links coupled to each other via a link pivot joint; and at least one damper operably coupled to at least one of: 1) the movable cross member, 2) at least one lower link, 3) at least one upper link, 4) at least one link pivot joint and 5) the stationary member; the at least one damper configured to provide a holding force, the holding force restricting translation of the movable cross member as the movable cross member is in one of: the extended position, the retracted position and the at least one intermediate position. 2 . The linkage extension system of claim 1 , wherein the at least one damper further comprises a helix shaft, the helix shaft rotationally secured to the stationary member via a helix fixed nut, the helix shaft operatively coupled with the movable cross member via a rotary damper, the helix shaft providing the holding force directly to the movable cross member. 3 . The linkage extension system of claim 1 , wherein the at least one damper further comprises at least one rotary damper rigidly coupled to the stationary member and operably coupled with at least one lower link, the at least one rotary damper providing the holding force directly upon the at least one lower link. 4 . The linkage extension system of claim 1 , wherein the at least one damper further comprises at least one rotary damper rigidly coupled to the movable cross member and operably coupled to at least one upper link, the at least one rotary damper providing the holding force directly upon the at least one upper link. 5 . The linkage extension system of claim 1 , wherein the at least one damper further comprises at least one gas spring damper rotationally coupled with the stationary member and operably coupled with at least one opposite link pivot joint, the at least one gas spring damper providing the holding force directly upon the at least one opposite link pivot joint. 6 . The linkage extension system of claim 1 , wherein the holding force is less than ten pounds. 7 . The linkage extension system of claim 1 , wherein the holding force acts opposite from an extension force or a retraction force applied by a user, each force acts parallel to the movement plane. 8 . The linkage extension system of claim 1 , wherein the holding force remains one of: constant, increasing or decreasing throughout the translation from the retracted position to the extended position. 9 . The linkage extension system of claim 1 , wherein the holding force is sized to overcome at least one of: a gravitational force proximate with the movement plane, a lateral force approximately perpendicular to the movement plane, and a friction force within the movement plane. 10 . The linkage extension system of claim 1 , wherein the movable cross member is further coupled with at least one of a head rest, a foot rest, a leg support and a seat pan extension. 11 . A method for extension and retraction of an extendable portion of a seat, comprising: translationally coupling a movable cross member to a seat, the movable cross member translationally coupled to a stationary member of the seat, the stationary member rigidly coupled to the seat, the movable cross member configured to translate along a movement plane to at least one of an extended position, a retracted position, and at least one intermediate position, the retracted position proximal to the seat and the extended position and at least one intermediate position distant from the seat; rotationally coupling a pair of lower links via a lower pivot joint with the stationary member, the pair of lower links configured to rotate within the movement plane; rotationally coupling a pair of upper links via an upper pivot joint with the movable cross member, the pair of upper links configured to rotate within the movement plane, the upper links and the lower links coupled to each other via a link pivot joint; and operably coupling at least one damper to at least one of: 1) the movable cross member, 2) at least one lower link, 3) at least one upper link, 4) at least one link pivot joint and 5) the stationary member; wherein the at least one damper is configured to provide a holding force, the holding force restricting translation of the movable cross member as the movable cross member is in one of: the extended position, the retracted position and the at least one intermediate position. 12 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the at least one damper further comprises a helix shaft, the helix shaft rotationally secured to the stationary member via a helix fixed nut, the helix shaft operatively coupled with the movable cross member via a rotary damper, the helix shaft providing the holding force directly to the movable cross member. 13 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the at least one damper further comprises at least one rotary damper rigidly coupled to the stationary member and operably coupled with at least one lower link, the at least one rotary damper providing the holding force directly upon the at least one lower link. 14 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the at least one damper further comprises at least one rotary damper rigidly coupled to the movable cross member and operably coupled to at least one upper link, the at least one rotary damper providing the holding force directly upon the at least one upper link. 15 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the at least one damper further comprises at least one gas spring damper rotationally coupled with the stationary member and operably coupled with at least one opposite link pivot joint, the at least one gas spring damper providing the holding force directly upon the at least one opposite link pivot joint. 16 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the holding force is less than ten pounds. 17 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the holding force acts opposite from an extension force or a retraction force applied by a user, each force acts parallel to the movement plane. 18 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the holding force remains one of: constant, increasing and decreasing throughout the translation from the retracted position to the extended position. 19 . The method for extension and retraction of an extendable portion of a seat of claim 11 , wherein the holding force is sized t