Agricultural machine having a processor configured to track a position of a draft frame

What is claimed is: 1. A motor grader, comprising: a main frame; an operational frame movable relative to the main frame about a primary joint; a plurality of hydraulic cylinders configured to adjust a position of the operational frame relative to the main frame, each cylinder of the plurality of cylinders movable between an extended position and a retracted position to adjust the length thereof, wherein the plurality of cylinders is operatively connected such that movement of one cylinder of the plurality of cylinders causes movement of at least another cylinder of the plurality of cylinders; and a processor configured to receive a signal corresponding to a parameter related to a length of a first cylinder of the plurality of cylinders, and estimate a position of the operational frame relative to the main frame based at least in part on the length of the first cylinder, wherein the processor estimates the position of the operational frame by executing an iterative mathematical model to solve for the position of the operational frame. 2. The motor grader of claim 1 , wherein the processor is further configured to adjust the position of the operational frame by executing a valve command to a second cylinder of the plurality of cylinders. 3. The motor grader of claim 2 , wherein the first cylinder is manually controlled by an operator of the motor grader, and wherein the second cylinder is automatically controlled by the processor. 4. The motor grader of claim 2 , wherein the processor is further configured to estimate a current velocity of the operational frame. 5. The motor grader of claim 4 , wherein the valve command includes instructions to the second cylinder indicating a rate of flow of hydraulic fluid to or from the second cylinder, and wherein the valve command is calculated at least in part on the estimated current velocity. 6. The motor grader of claim 1 , wherein the estimated position of the operational frame relative to the main frame includes the estimated position of the operational frame necessary to achieve the desired cut plane. 7. The motor grader of claim 1 , wherein the estimated position of the operational frame relative to the main frame includes the current position of the operational frame. 8. The motor grader of claim 1 , wherein the processor is further configured to receive a user input indicating a desired cross slope of the operational frame, and wherein processor is configured to adjust the position of the operational frame toward the desired cross slope. 9. The motor grader of claim 1 , further comprising a plurality of sensors, wherein each sensor of the plurality of sensors is associated with one cylinder of the plurality of cylinders, each sensor configured to sense a parameter relating to the length of the corresponding cylinder. 10. A motor grader, comprising: a main frame; an operational frame movable relative to the main frame about a primary joint; a plurality of hydraulic cylinders configured to adjust a position of the operational frame relative to the main frame, each cylinder of the plurality of cylinders movable between an extended position and a retracted position to adjust the length thereof; and a processor configured to receive a signal indicating a desired cross slope of the operational frame, receive a signal identifying one of the plurality of cylinders as a lead cylinder, determine a desired position of the operational frame that achieves the desired cross slope of the operational frame, estimate a current position of the operational frame by monitoring a length of the lead cylinder, and adjust the position of the operational frame by controlling a follower cylinder of the plurality of cylinders to create the desired cross slope. 11. The motor grader of claim 10 , further comprising a plurality of sensors, wherein each sensor of the plurality of sensors is associated with one cylinder of the plurality of cylinders, each sensor configured to sense a parameter relating to the length of the corresponding cylinder. 12. The motor grader of claim 11 , wherein the processor is configured to estimate the current position of the operational frame based at least in part on information sensed by one of the plurality of sensors associated with the lead cylinder. 13. The motor grader of claim 12 , wherein the processor is further configured to estimate a velocity of the operational frame based at least in part on information sensed by one of the plurality of sensors associated with the lead cylinder. 14. The motor grader of claim 13 , wherein the processor is configured to adjust the position of the operational frame by executing a valve command to the follower cylinder. 15. The motor grader of claim 14 , wherein the valve command includes instructions to the follower cylinder indicating a rate of flow of hydraulic fluid to or from the follower cylinder, and wherein the valve command is calculated at least in part on the estimated current velocity. 16. The motor grader of claim 10 , wherein the processor is configured to estimate a current position of the operational frame by executing an iterative mathematical model to solve for the estimated position of the operational frame. 17. A motor grader, comprising: a main frame; an operational frame movable relative to the main frame about a primary joint; a plurality of hydraulic cylinders configured to adjust a position of the operational frame relative to the main frame, each cylinder of the plurality of cylinders movable between an extended position and a retracted position to adjust the length thereof; a plurality of sensors, wherein each sensor of the plurality of sensors is associated with one cylinder of the plurality of cylinders, each sensor configured to sense a parameter relating to the length of the corresponding cylinder; and a processor configured to receive a signal corresponding to a parameter related to a length of a first cylinder of the plurality of cylinders, estimate a position of the operational frame based on the received signal, estimate a velocity of the operational frame based on the received signal, and adjust the operational frame by executing a valve command to a second cylinder of the plurality of cylinders. 18. The motor grader of claim 17 , wherein the processor is further configured to receive a signal indicating a desired cross slope of the operational frame, and wherein the processor is configured to adjust the operational frame to achieve the desired cross slope. 19. The motor grader of claim 17 , wherein the valve command indicates a velocity and an amount of hydraulic fluid to be fed through a second cylinder. 20. The motor grader of claim 19 , wherein the valve command is based at least in part on the estimated position and the estimated velocity of the operational frame. 21. The motor grader of claim 17 , wherein the plurality of cylinders is operatively connected such that movement of one cylinder of the plurality of cylinders causes movement of at least another cylinder of the plurality of cylinders. 22. The motor grader of claim 21 , wherein the processor is configured to estimate the position of the operational frame by executing an iterative mathematical model to solve for the position of the operational frame.