Method for controlling the height of a harvesting implement relative to the ground and related height control systems

What is claimed is: 1. A method for automatically controlling a height of a harvesting implement of an agricultural work vehicle relative to a ground surface, the harvesting implement being provided in operative association with both a height cylinder configured to adjust a vertical positioning of the harvesting implement relative to the ground surface and a tilt cylinder configured to adjust a lateral tilt of the harvesting implement relative to the ground surface, the method comprising: receiving, with a computing device, height data from a plurality of height sensors spaced apart relative to the harvesting implement with a known spatial relationship; analyzing, with the computing device, the height data in combination with position data associated with the known spatial relationship of the plurality of height sensors to establish a correlation between the height data and the position data by performing a linear regression analysis, the established correlation being indicative of a regression line fit though a dataset including the height data and the position data; determining, with the computing device, a tilt control output for controlling the tilt cylinder based on a slope of the regression line of the established correlation; and controlling, with the computing device, an operation of at least one of the height cylinder or the tilt cylinder based on the tilt control output to adjust at least one of the vertical positioning or the lateral tilt of the harvesting implement relative to the ground surface. 2. The method of claim 1 , wherein determining the tilt control output comprises at least one of determining a first tilt control output associated with controlling the operation of the tilt cylinder to tilt the harvesting implement in a first direction when the slope of the regression line is positive or determining a second tilt control output associated with controlling the operation of the tilt cylinder to tilt the harvesting implement in a second direction opposite the first direction when the slope of the regression line is negative. 3. The method of claim 1 , wherein determining the tilt control output comprises determining a tilt control output associated with maintaining a current cylinder position of the tilt cylinder when the slope of the regression line is equal to zero. 4. The method of claim 1 , wherein determining the at least one control output for controlling the operation of the height cylinder and the tilt cylinder comprises determining a height control output for controlling the operation of the height cylinder based on a height value defined along the regression line that is associated with a fixed reference point on the harvesting implement. 5. The method of claim 4 , further comprising comparing the height value to a predetermined height setting for the harvesting implement. 6. The method of claim 5 , wherein determining the height control output comprises determining a height control output for controlling the operation of the height cylinder in a manner that adjusts the vertical positioning of the harvesting implement when the height value differs from the predetermined height setting. 7. The method of claim 6 , wherein the predetermined height setting is associated with a predetermined height range for the harvesting implement; and wherein determining the height control output comprises determining a height control output for controlling the operation of the height cylinder in a manner that adjusts the vertical positioning of the harvesting implement when the height value falls outside the predetermined height range. 8. The method of claim 5 , wherein determining the height control output comprises determining a height control output associated with maintaining a current cylinder position of the height cylinder when the height value does not differ from the predetermined height setting. 9. A height control system for an agricultural vehicle, the system comprising: a harvesting implement; a height cylinder configured to adjust a vertical positioning of the harvesting implement relative to a ground surface; a tilt cylinder configured to adjust a lateral tilt of the harvesting implement relative to the ground surface; a plurality of height sensors spaced apart relative to the harvesting implement with a known spatial relationship, each height sensor configured to generate height data indicative of a local distance defined between the harvesting implement and the ground surface at a respective location of said height sensor; and a controller communicatively coupled to the plurality of height sensors, the controller including a processor and associated memory, the memory storing instructions that, when executed by the processor, configure the controller to: analyze the height data received from the plurality of height sensors in combination with position data associated with the known spatial relationship of the plurality of height sensors to establish a correlation between the height data and the position data by performing a linear regression analysis, the established correlation being indicative of a regression line fit though a dataset including the height data and the position data; determine a height control output for controlling the height cylinder based on a height value defined along the regression line of the established correlation that is associated with a fixed reference point on the harvesting implement; and control an operation of at least one of the height cylinder or the tilt cylinder based on the height control output to adjust at least one of the vertical positioning or the lateral tilt of the harvesting implement relative to the ground surface. 10. The height control system of claim 9 , wherein the controller is configured to determine a tilt control output for controlling the operation of the tilt cylinder based on a slope of the regression line. 11. The height control system of claim 10 , wherein the controller is configured to determine the tilt control output by determining at least one of a first tilt control output associated with controlling the operation of the tilt cylinder to tilt the harvesting implement in a first direction when the slope of the regression line is positive or a second tilt control output associated with controlling the operation of the tilt cylinder to tilt the harvesting implement in a second direction opposite the first direction when the slope of the regression line is negative. 12. The height control system of claim 9 , wherein the controller is further configured to compare the height value to a predetermined height setting for the harvesting implement. 13. The height control system of claim 12 , wherein the controller is configured to determine the height control output for controlling the operation of the height cylinder in a manner that adjusts the vertical positioning of the harvesting implement when the height value differs from the predetermined height setting. 14. The height control system of claim 13 , wherein the predetermined height setting is associated with a predetermined height range for the harvesting implement; and wherein the controller is configured to determine the height control output for controlling the operation of the height cylinder in a manner that adjusts the vertical positioning of the harvesting implement when the height value falls outside the predetermined height range. 15. The height control system of claim 9 , wherein the harvesting implement comprises a header configured for use with an agricultural harvester. 16. A height control system for an agricultural vehicle, the system compri