System and computer-implemented method for controlling free water content in cut crop material

Having thus described one or more embodiments of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1. A system for controlling a free water content of a crop material cut by a mower conditioner, the mower conditioner including: a crop cutting assembly configured to cut the crop material from a field; a conditioning mechanism configured to receive and condition the crop material from the crop cutting assembly, the conditioning mechanism including: a pair of conditioning rollers configured to condition the crop material; a tensioning mechanism configured to adjustably urge the pair of conditioning rollers toward one another and resist their separation; the system comprising: a sensor configured to determine an actual free water content value reflecting an amount of free water in the crop material; an electronic processing element in communication with the sensor and configured to perform an assessment and adjustment process to control the free water content including: receiving the actual free water content value; receiving an operator-selectable weight value weighting the actual free water content value versus a dry down time; comparing the actual free water content value to a threshold free water content value, an if the actual free water content value exceeds the threshold free water content value, automatically adjusting an operating parameter of the mower conditioner to optimize the actual free water content value, and considering the operator-selectable weight value when adjusting the operating parameter of the mower conditioner to optimize the actual free water content value. 2. The system of claim 1 , wherein the threshold free water content is a minimum free water content. 3. The system of claim 1 , wherein the threshold free water content is a maximum free water content. 4. The system of claim 1 , wherein the sensor is located at an entrance of the conditioning mechanism. 5. The system of claim 1 , wherein the sensor is located at an exit of the conditioning mechanism. 6. The system of claim 1 , wherein the operating parameter adjusted by the electronic processing element includes a gap between the pair of conditioning rollers, which the electronic processing element adjusts by sending a control signal to a gap setting mechanism of the conditioning mechanism. 7. The system of claim 1 , wherein the operating parameter adjusted by the electronic processing element includes a pressure exerted by the pair of conditioning rollers, which the electronic processing element adjusts by sending a control signal to the tensioning mechanism. 8. The system of claim 1 , wherein the operating parameter adjusted by the electronic processing element includes a speed of the mower conditioner, which the electronic processing element adjusts by sending a control signal to a speed controller of the mower conditioner. 9. The system of claim 1 , wherein the assessment and adjustment process further includes communicating the actual free water content value and the operating parameter adjusted by the electronic processing element to a display for viewing by an operator of the mower conditioner. 10. The system of claim 1 , the electronic processing element being further configured to at least periodically perform the assessment and adjustment process during operation of the mower conditioner. 11. A mower conditioner configured to control a free water content of a crop material cut by the mower conditioner, the mower conditioner comprising: a crop cutting assembly configured to cut the crop material from a field; a conditioning mechanism configured to receive and condition the crop material from the crop cutting assembly, the conditioning mechanism including one or more pairs of conditioning rollers configured to condition the crop material, and a tensioning mechanism configured to adjustably urge the one or more pairs of conditioning rollers toward one another and resist their separation; one or more first sensors located at an entrance of the conditioning mechanism, and configured to determine a first actual free water content value reflecting an amount of free water in the crop material entering the conditioning mechanism; one or more second sensors located at an exit of the conditioning mechanism, and configured to determine a second actual free water content value reflecting an amount of free water in the conditioned crop material exiting the conditioning mechanism; and an electronic processing element in communication with the one or more first and second sensors and configured to at least periodically perform an assessment and adjustment process to control the free water content during operation of the mower conditioner, the assessment and adjustment process including: receiving the first and second actual free water content values; receiving an operator-selectable weight value weighting the first and second actual free water content values versus a dry down time; comparing the first and second actual free water content values to first and second maximum free water content values, and if the first and second actual free water content values exceed the first and second maximum free water content values, automatically adjusting one or more operating parameters of the mower conditioner to optimize the second actual free water content value, and considering the operator-selectable weight value when adjusting the one or more operating parameters of the mower conditioner to optimize the second actual free water content value. 12. The mower conditioner of claim 11 , wherein the assessment and adjustment process further includes comparing the first and second actual free water content values to first and second minimum free water content values, and if the first and second actual free water content values are below the first and second minimum free water content values, automatically adjusting one or more operating parameters of the mower conditioner to optimize the second actual free water content value. 13. The mower conditioner of claim 11 , wherein the one or more operating parameters adjusted by the electronic processing element include a gap between the one or more pairs of conditioning rollers, which the electronic processing element adjusts by sending a control signal to a gap setting mechanism of the conditioning mechanism. 14. The mower conditioner of claim 11 , wherein the one or more operating parameters adjusted by the electronic processing element include a pressure exerted by the one or more pairs of conditioning rollers which the electronic processing element adjusts by sending a control signal to the tensioning mechanism. 15. The mower conditioner of claim 11 , wherein the one or more operating parameters adjusted by the electronic processing element include a speed of the mower conditioner, which the electronic processing element adjusts by sending a control signal to a speed controller of the mower conditioner. 16. The mower conditioner of claim 11 , wherein the electronic processing element is further configured to communicate the first and second actual free water content values and the one or more operating parameters adjusted by the electronic processing element to a display for viewing by an operator of the mower conditioner. 17. The mower conditioner of claim 11 , the electronic processing element being further configured to continuously perform the assessment and adjustment process during operation of the mower conditioner. 18. A computer-implemented method for improving t