Active header control

The invention claimed is: 1. An agricultural machine, comprising: a chassis; an implement mechanically coupled to the chassis; a hydraulic system, comprising: at least one hydraulic cylinder, comprising a first port, a second port, and a piston and rod assembly that is bi-directionally moveable between the first and second ports based on hydraulic fluid flow, each hydraulic cylinder coupled to the chassis and operative to cause movement of the implement; and a cylinder circuit coupled to the first and second ports of the at least one hydraulic cylinder, the cylinder circuit comprising an actuable valve that is switchably configurable to enable a change in the hydraulic fluid flow to enable the movement of the implement; and a control system, comprising: at least one sensor, configured to provide a signal based on a motion of the chassis; and a controller configured to receive the signal from the at least one sensor and cause actuation of the at least one hydraulic cylinder based on the signal to move the implement to counter the motion of the chassis. 2. The agricultural machine of claim 1 , wherein the at least one sensor provides information corresponding to chassis pitch, wherein the controller is configured to cause actuation of the at least one hydraulic cylinder to lower the implement when one end of the chassis pitches downward. 3. The agricultural machine of claim 1 , wherein the at least one sensor provides information corresponding to chassis pitch, wherein the controller is configured to cause actuation of the at least one hydraulic cylinder to raise the implement when one end of the chassis pitches upward. 4. The agricultural machine of claim 1 , wherein the at least one sensor comprises an accelerometer. 5. The agricultural machine of claim 4 , wherein the at least one sensor comprises a first sensor and a second sensor, respectively, connected directly or indirectly to the chassis, the first sensor proximal to a front axle and the second sensor proximal to a rear axle. 6. The agricultural machine of claim 1 , wherein the at least one sensor provides information corresponding to a chassis rolling motion, and wherein the controller is further configured to cause actuation of an actuable valve of another cylinder circuit that is coupled to at least one other hydraulic cylinder proximal to a lateral tilt frame coupled to the chassis based on a signal to raise one end of the implement relative to the other end to counter the chassis rolling motion. 7. The agricultural machine of claim 6 , further comprising at least one additional sensor proximal to at least one other hydraulic cylinder, the at least one additional sensor providing the controller a relative position of at least one piston of the respective other hydraulic cylinder with respect to each associated cylinder barrel or information to derive the relative positions in the respective cylinder barrels. 8. The agricultural machine of claim 1 , wherein the agricultural machine comprises a combine harvester and the implement comprises a header. 9. The agricultural machine of claim 1 , wherein the at least one sensor comprises one or a combination of: an accelerometer, a gyroscope, at least one laser device, a radar device, and a global navigation satellite system device. 10. The agricultural machine of claim 1 , further comprising at least one additional sensor proximal to the at least one hydraulic cylinder, the at least one additional sensor providing the controller a relative position of a piston in each associated cylinder barrel or information to derive the relative position of the piston in each respective cylinder barrel. 11. The agricultural machine of claim 10 , wherein the controller is further configured to cause actuation of the at least one hydraulic cylinder based on the relative position with respect to the associated cylinder barrel and a neutral or set position of the piston. 12. The agricultural machine of claim 1 , wherein the actuable valve comprises a valve actuator that receives signals from the controller, the valve actuator enabling a change in spool or poppet position in the actuable valve. 13. A method, comprising: controlling hydraulic fluid flow through at least one hydraulic cylinder, the hydraulic cylinder comprising a first port, a second port, and a piston and rod assembly that is bi-directionally moveable between the first and second ports based on the hydraulic fluid flow, the hydraulic cylinder operatively coupled to an implement; receiving information about motion of a chassis to which the implement is coupled; and causing the hydraulic fluid flow to change through the hydraulic cylinder based on the information to cause movement of the implement, wherein the movement is countering the motion of the chassis. 14. The method of claim 13 , wherein the information corresponds to chassis pitch. 15. The method of claim 14 , wherein based on the information corresponding to a downward pitching motion of one end of the chassis, the causing the hydraulic fluid flow change causes the implement to be lowered. 16. The method of claim 14 , wherein based on the information corresponding to an upward pitching motion of one end of the chassis, the causing the hydraulic fluid flow change causes the implement to be raised. 17. The method of claim 13 , further comprising a lateral tilt frame coupled to at least one other hydraulic cylinders and at least one other cylinder circuit comprising an actuable valve that controls the hydraulic fluid flow through the at least one other hydraulic cylinders, wherein the information corresponds to chassis rolling motion, and wherein based on the information corresponding to the chassis rolling motion, causing hydraulic fluid flow change to cause the implement to be rolled to counter the chassis rolling motion. 18. The method of claim 13 , wherein receiving the information comprises receiving the information from at least one sensors. 19. The method of claim 13 , further comprising receiving information about a relative piston position with respect to a cylinder barrel of the hydraulic cylinder and causing the hydraulic fluid flow to change based on the information and a neutral or set position of the piston. 20. A combine harvesters comprising: a chassis; an implement coupled to the chassis; a hydraulic system, comprising: plural hydraulic cylinders coupled to the chassis and operative to cause movement of the implement; and a cylinder circuit coupled to the plural hydraulic cylinders and comprising an actuable valve configured to enable hydraulic fluid flow through the plural hydraulic cylinders to enable the movement of the implement; and a control system, comprising: at least one sensor, configured to provide a signal based on a motion of the chassis; and a controller configured to receive the signal from the at least one sensor and cause actuation of the actuable valve to cause the plural hydraulic cylinders to move the implement based on the signal to counter the motion of the chassis.