Grade control having real time cylinder stop lengths

1 . A method of moving a work implement coupled to a hydraulic actuator having a cylinder and a piston rod, the hydraulic actuator coupled to the work implement and coupled to a part of a work vehicle, the method comprising: identifying, with a sensor, one of: i) an initial retracted reference position of the piston rod based on an initial minimum retracted distance or ii) an initial extended reference position of the piston rod based on an initial maximum extended distance; identifying, with the sensor, an end of stroke position of the piston rod after identifying one of the initial retracted reference position of the piston rod or the initial extended reference position of the piston rod; and moving the work implement with respect to the work vehicle based on a work implement command modified by the identified end of stroke position. 2 . The method of claim 1 further comprising: comparing the end of stroke position with a threshold value to generate a difference value; and transmitting an alert based on the difference value. 3 . The method of claim 1 wherein the identifying, with the sensor, an end of stroke position includes identifying an end of stroke retracted position and an end of stroke extended position. 4 . The method of claim 3 wherein the moving the work implement includes moving the work implement with respect to the work vehicle based on the work implement command modified by the identified end of stroke retracted position and modified by identified the end of stroke extended position. 5 . The method of claim 1 further comprising: establishing a grade target for a surface to be prepared by the work implement, wherein moving the work implement includes adjusting the position of the work implement to grade the surface to the grade target. 6 . The method of claim 5 wherein moving the work implement includes moving the work implement with respect to the work vehicle by modifying the location of the piston rod with respect to the cylinder at each of the end of stroke retracted position and the end of stroke extended position to grade the surface to the grade target. 7 . The method of claim 6 wherein the modifying the location of the piston rod includes transmitting a signal from a controller to the hydraulic cylinder at each of the end of stroke retracted position and the end of stroke extended position to grade the surface of the grade target. 8 . The method of claim 6 further comprising: comparing the end of stroke position with a threshold value to generate a difference value; and transmitting an alert based on the difference value. 9 . The method of claim 8 wherein the transmitting the signal from the controller includes transmitting the signal over a communication network of the vehicle including one or more of a CAN network, an Ethernet network, a WIFI network, a Bluetooth network, a GPS network, a cellular network, and a satellite network. 10 . A work vehicle including a work implement operatively connected to a frame, the work vehicle comprising: an actuator operatively connected to the work implement, the actuator including a cylinder and a piston rod, wherein the actuator is configured to move the work implement with respect to the frame; control circuitry operatively connected to the actuator, the control circuitry including a processer and a memory, wherein the memory is configured to store program instructions and the processor is configured to execute the stored program instructions to: identify, with a sensor, an initial reference position of the piston rod based on an initial minimum retracted distance or an initial maximum extended reference position of the piston rod based on an initial maximum extended distance; identify, with the sensor, an end of stroke position of the piston rod after identifying one of the initial retracted reference position of the piston rod or the initial extended reference position of the piston rod; and move the work implement with respect to the work vehicle based on a work implement command modified by the identified end of stroke position. 11 . The work vehicle of claim 10 wherein the identify, with a sensor, an end of stroke position includes identify one of or both of an end of stroke retracted position and an end of stroke extended position. 12 . The work vehicle of claim 11 wherein the move the work implement includes move the work implement with respect to the work vehicle based on the work implement command modified by one or both of the identified end of stroke retracted position and modified by the end of stroke extended position. 13 . The work vehicle of claim 12 wherein the work implement command includes move the work implement in response to a grade target for a surface to be prepared by the work implement. 14 . The work vehicle of claim 13 wherein moving the work implement includes moving the work implement with respect to the work vehicle by modifying the location of the piston rod with respect to the cylinder at each of the end of stroke retracted position and the end of stroke extended position to grade the surface of the grade target. 15 . The work vehicle of claim 14 wherein the modifying the location of the piston rod includes transmitting a signal from a controller to the actuator at each of the end of stroke retracted position and the end of stroke extended position to grade the surface of the grade target. 16 . The work vehicle of claim 15 wherein the memory is further configured to store program instructions and the processor is further configured to execute the stored program instruction to: compare the end of stroke position with a threshold value to generate a difference value; and transmit an alert based on the difference value. 17 . The work vehicle of claim 16 wherein the control circuitry further includes a communication network including one or more of a CAN network, an Ethernet network, a WIFI network, a Bluetooth network, a GPS network, a cellular network, and a satellite network operatively connected to the processor. 18 . A grade control system for a work vehicle including a frame and a grader blade operatively connected to the frame and configured to move through a range of positions to grade a surface, the control system comprising: an actuator operatively connected to the grader blade, the actuator including a cylinder, a piston rod, and a sensor to determine a position of the piston rod with respect to the cylinder, wherein the actuator is configured to move the grader blade with respect to the frame; control circuitry operatively connected to the actuator, the control circuitry including a processer and a memory, wherein the memory is configured to store program instructions and the processor is configured to execute the stored program instructions to: identify, with the sensor, one of: i) an initial retracted reference position of the piston rod based on an initial minimum retracted distance; or ii) an initial extended reference position of the piston rod based on an initial maximum extended distance; identify, with the sensor, an end of stroke position of the piston rod after identifying one of the initial retracted reference position of the piston rod or the initial extended reference position of the piston rod; identify a first position of the grader blade with respect to the surface; and move the grader blade from the identified first position to a second position, wherein the second position is based on a blade command modified by the identified end of stroke position. 19 . 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