Header position control with dynamically adapted sensitivity

What is claimed is: 1. A control system for controlling an agricultural harvesting machine, comprising: a header position sensor that senses a position variable indicative of a position of a header on the agricultural harvesting machine relative to a surface over which the agricultural harvesting machine travels and generates a sensed position signal indicative of the sensed position variable; a header position control system that receives a position setpoint value indicative of a commanded header position and the sensed position signal and performs closed loop control of a header position actuator, that moves the header to different positions relative to the surface, based on a header position error indicated by the position setpoint value and the sensed position variable; a stability parameter sensor that senses a stability parameter indicative of a physical stability of the agricultural harvesting machine and generates a stability parameter signal indicative of the sensed stability parameter; and a sensitivity control system that automatically identifies a sensitivity value that sets a sensitivity of the header position control system in responding to the header position error, based on the header position error and the stability parameter signal, and provides a sensitivity signal, indicative of the sensitivity value, to the header position control system, the header position control system performing the closed loop control of the header position actuator with the sensitivity value indicated by the sensitivity signal. 2. The control system of claim 1 , wherein the stability parameter sensor comprises: a header motion sensor configured to sense motion of the header that is indicative of the physical stability of the agricultural harvesting machine. 3. The control system of claim 2 , wherein the sensitivity control system comprises: parameter processing logic configured to generate, based on the stability parameter signal, a frequency domain representation of the sensed motion of the header. 4. The control system of claim 3 , wherein the sensitivity control system comprises: sensitivity identifying logic configured to identify the sensitivity value based on the frequency domain representation of the sensed motion of the header and the header position error. 5. The control system of claim 4 , wherein the parameter processing logic is configured to generate the frequency domain representation of the sensed motion of the header as a ratio of a maximum frequency domain amplitude in a high frequency range and a maximum frequency domain amplitude in a low frequency range that is lower than the high frequency range. 6. The control system of claim 1 , wherein the header position sensor senses, as the position variable, a height variable indicative of a header height relative to the surface over which the agricultural harvesting machine is traveling. 7. The control system of claim 6 , wherein the header position actuator comprises a header height actuator that is actuated to control the header height relative to the surface and wherein the header position control system comprises: height control logic configured to perform closed loop header height control to control the header height actuator with the sensitivity value indicated by the sensitivity signal. 8. The control system of claim 1 , wherein the header position sensor senses, as the position variable, a tilt variable indicative of a header roll angle relative to a longitudinal axis of the agricultural machine. 9. The control system of claim 8 , wherein the header position actuator comprises a header tilt actuator that is actuated to control the header roll angle, and wherein the header position control system comprises: tilt control logic configured to perform closed loop header tilt control to control the header tilt actuator with the sensitivity value indicated by the sensitivity signal. 10. The control system of claim 2 , wherein the header motion sensor comprises: a movement sensor configured to identify bouncing movement of the agricultural harvesting machine and to generate the stability parameter based on the identified bouncing movement. 11. A method of controlling an agricultural harvesting machine, comprising: sensing a position variable indicative of a position of a header on the agricultural harvesting machine relative to a surface over which the agricultural harvesting machine travels; generating a sensed position signal indicative of the sensed position variable; detecting a position setpoint value indicative of a commanded header position; performing, with a header position control system, closed loop control of a header position actuator, that moves the header to different positions relative to the surface, based on a header position error indicated by the position setpoint value and the sensed position variable; sensing a stability parameter indicative of a physical stability of the agricultural harvesting machine; generating a stability parameter signal indicative of the sensed stability parameter; automatically identifying a sensitivity value that sets a sensitivity of the closed loop control by header position control system in responding to the header position error, based on the stability parameter signal and the header position error; and providing a sensitivity signal, indicative of the sensitivity value, to the header position control system, the header position control system performing the closed loop control of the header position actuator with the sensitivity value indicated by the sensitivity signal. 12. The method of claim 11 , wherein sensing a stability parameter comprises: sensing motion of the header that is indicative of the physical stability of the agricultural harvesting machine. 13. The method of claim 12 , wherein identifying a sensitivity value comprises: generating, based on the stability parameter signal, a frequency domain representation of the sensed motion of the header; and identifying the sensitivity value based on the frequency domain representation of the sensed motion of the header and the header position error. 14. The method of claim 13 , wherein generating a frequency domain representation comprises: generating the frequency domain representation of the sensed motion of the header as a ratio of a maximum frequency domain amplitude in a high frequency range and a maximum frequency domain amplitude in a low frequency range that is lower than the high frequency range. 15. The method of claim 11 , wherein the header position actuator comprises a header height actuator that is actuated to control the header height relative to the surface and wherein sensing a position variable comprises: sensing a height variable indicative of a header height relative to the surface over which the agricultural machine is traveling, wherein performing closed loop control comprises performing closed loop header height control to control the header height actuator with the sensitivity value indicated by the sensitivity signal. 16. The method of claim 11 , wherein the header position actuator comprises a header tilt actuator that is actuated to control the header roll angle and wherein sensing a position variable comprises: sensing a tilt variable indicative of a header roll angle relative to a longitudinal axis of the agricultural machine, wherein performing closed loop control comprises performing closed loop header tilt control to control the header tilt actuator with the sensitivity value indicated by the sensitivity signal. 17. The method of claim 12 , wherein se