Crosswind compensation for residue processing

What is claimed is: 1. A mobile machine, comprising: a material processing system that engages material to be processed as the mobile machine travels in a direction of travel; a wind sensor, connected to a structural frame of the mobile machine that generates a wind sensor signal indicative of a wind speed and wind direction of air flow impinging on the wind sensor; an elongate shroud, having a longitudinal axis fixedly oriented generally transverse to the direction of travel of the mobile machine, disposed about the wind sensor; and an action signal generator, configured to receive the wind sensor signal and generate an action signal, based on the wind sensor signal. 2. The mobile machine of claim 1 and further comprising: a residue discharge system that discharges residue from the mobile machine; and a residue discharge control system configured to receive the action signal and control the residue discharge system based on the action signal. 3. The mobile machine of claim 2 wherein the residue discharge system includes a discharge direction mechanism that controls a direction in which the residue discharge system discharges the residue. 4. The mobile machine of claim 3 wherein the residue discharge control system controls the residue discharge system to preferentially discharge the residue in a given direction based on the action signal. 5. The mobile machine of claim 4 wherein the mobile machine comprises a combine and wherein the residue discharge system comprises: a first spreader, rotatably mounted on a first side of the combine, that rotates to spread the residue; and a second spreader, rotatably mounted on a second side of the combine, that rotates to spread the residue. 6. The mobile machine of claim 5 wherein the residue discharge control system controls a speed of rotation of the first and second spreaders based on the action signal. 7. The mobile machine of claim 4 wherein the discharge direction mechanism comprises a baffle system that is oriented in a direction based on a direction setting, the residue discharge control system and controlling the direction setting to control the direction in which the residue is discharged. 8. The mobile machine of claim 4 and further comprising: a residue moisture sensor that generates a moisture signal indicative of a moisture of the residue, the action signal generator generating the action signal based on the moisture signal. 9. The mobile machine of claim 4 and further comprising: a machine orientation sensor that generates an orientation signal indicative of an orientation of the mobile machine, the action signal generator generating the action signal based on the orientation signal. 10. The mobile machine of claim 4 and further comprising: a machine speed sensor that generates a speed signal indicative of a travel speed of the mobile machine, the action signal generator generating the action signal based on the speed signal. 11. The mobile machine of claim 4 and further comprising: a feed rate sensor that generates a feed rate signal indicative of a reside discharge rate. 12. The mobile machine of claim 2 and further comprising: a user interface component that surfaces indicia indicative of operation of the residue discharge control system based on the action signal and indicative of the wind speed and wind direction. 13. A mobile machine, comprising: a structural frame; a material processing system that engages material to be processed as the mobile machine travels in a direction of travel, processes the material, and generates residue; a residue discharge system that discharges the residue from the mobile machine; a wind sensor connected to the structural frame that generates a wind sensor signal, indicative of a wind speed and wind direction of air flow impinging on the wind sensor; an additional sensor that generates an additional sensor signal indicative of a variable that affects a direction in which the residue is discharged from the mobile machine; an action signal generator, configured to receive the wind sensor signal and the additional sensor signal and generate an action signal, based on the wind sensor signal and the additional sensor signal; and a direction control system that controls a direction in which the residue discharge system discharges the residue from the mobile machine, based on the action signal. 14. The mobile machine of claim 13 wherein the wind sensor comprises: an impeller; and an elongate shroud, having a longitudinal axis fixedly oriented generally transverse to the direction of travel of the mobile machine, disposed about the impeller; and a pickup component that senses a speed and direction of rotation of the impeller and generates the wind sensor signal indicative of the sensed speed and direction of rotation. 15. The mobile machine of claim 14 wherein the mobile machine comprises a combine and wherein the residue discharge system comprises: a first spreader, rotatably mounted on a first side of the combine, that rotates to spread the residue; and a second spreader, rotatably mounted on a second side of the combine, that rotates to spread the residue. 16. The mobile machine of claim 15 wherein the direction control system controls a speed of rotation of the first and second spreaders based on the action signal. 17. The mobile machine of claim 14 wherein the mobile machine comprises a combine with a controllable baffle system that controls the direction in which the residue is discharged, the direction control system controlling the baffle system based on the action signal. 18. A method of controlling an agricultural mobile machine, comprising: detecting a wind speed and wind direction of a cross wind component of air flow, moving in a direction generally transverse to a direction of travel of the agricultural mobile machine; generating a wind sensor signal, indicative of the detected wind speed and wind direction of the cross wind component of air flow; detecting an additional variable that affects a direction in which residue is discharged from the mobile machine; generating an additional sensor signal indicative of the additional variable; generating an action signal, based on the wind sensor signal and the additional sensor signal; and controlling a direction in which residue is discharged from the mobile machine, based on the action signal. 19. The method of claim 18 wherein the mobile machine includes a first residue spreader, rotatably mounted on a first side of the mobile machine, that rotates to spread the residue, and a second residue spreader, rotatably mounted on a second side of the mobile machine, that rotates to spread the residue, and wherein controlling a direction comprises: controlling a speed of rotation of the first and second spreaders based on the action signal. 20. The method of claim 18 wherein detecting an additional variable comprises: detecting at least one of a moisture of the residue, an orientation of the mobile machine, or a travel speed of the mobile machine.