Agricultural baler control system

What is claimed is: 1. An agricultural material baling system comprising: a bale forming component configured to form a bale of agricultural material; and a control system configured to: receive yield data obtained during a raking operation performed by a raking machine that rakes cut agricultural material on a terrain into a windrow, the yield data being indicative of a volume of agricultural material on the terrain in a path of the bale forming component; and control the baling system, based on the yield data, to bale the raked agricultural material in the windrow. 2. The agricultural material baling system of claim 1 , wherein the yield data comprises a position-referenced windrow map that indicates windrow volume at a plurality of locations. 3. The agricultural material baling system of claim 1 , wherein the yield data is stored in a remote data store accessible by the agricultural material baling system. 4. The agricultural material baling system of claim 1 , wherein the control system of the agricultural material baling system obtains the yield data from an agricultural material raking machine that is configured to generate the yield data while carrying out the raking operation. 5. The agricultural material baling system of claim 4 , wherein the agricultural material raking machine comprises: a raking mechanism configured to engage the cut agricultural material on the terrain and to move the agricultural material into the windrow; and a sensor configured to generate a sensor signal indicative of the volume of agricultural material in the windrow. 6. The agricultural material baling system of claim 1 , wherein the control system is configured to control the baling system by rendering an indication to the operator indicative of a suggested speed for the baling system. 7. The agricultural material baling system of claim 1 , wherein the control system is configured to control the baling system by rendering a suggested pickup height for the bale forming component. 8. The agricultural material baling system of claim 1 , wherein the control system is configured to control the baling system by automatically adjusting a speed of the baling system. 9. The agricultural material baling system of claim 1 , wherein the control system is configured to control the baling system by automatically adjusting a pickup height for the bale forming component. 10. An agricultural material raking machine comprising: a frame; a raking mechanism coupled to the frame and configured to engage cut agricultural material on a terrain and to move the agricultural material into a windrow; and a sensor configured to generate a signal indicative of a volume of the agricultural material in the windrow. 11. The agricultural material raking machine of claim 10 , wherein the raking mechanism defines a raking channel within which the windrow is formed, and the sensor is configured to sense a height of the agricultural material within the raking channel. 12. The agricultural material raking machine of claim 11 , wherein the sensor comprises a mechanical sensor configured to engage the height of the agricultural material within the raking channel. 13. The agricultural material raking machine of claim 11 , wherein the sensor comprises an optical sensor configured to sense the height of the agricultural material within the raking channel. 14. The agricultural material raking machine of claim 11 , wherein the sensor is mounted on the frame above the raking channel. 15. The agricultural material raking machine of claim 10 , wherein the raking mechanism comprises a set of rake wheels that are spaced apart to form the raking channel. 16. The agricultural material raking machine of claim 10 , and further comprising: a location system configured to determine a location of the raking machine, and wherein position-referenced yield data is generated based on the signals indicative of the volume of the agricultural material in the windrow and the location of the raking machine, wherein a windrow map is generated based on position-referenced yield data obtained at a set of locations. 17. A method of generating position-referenced yield data, comprising: operating an agricultural raking machine to rake agricultural material on a terrain into a windrow; receiving a sensor signal indicative of a height of the agricultural material in the windrow; determining a volume of agricultural material in the windrow based on the height; determining a position of the agricultural raking machine using a positioning system; and generating position-referenced yield data based on the volume and the position. 18. The method of claim 17 , further comprising: generating a windrow map based on the position-referenced yield data at a set of locations within the terrain. 19. The method of claim 18 , wherein the agricultural raking machine comprises a raking mechanism, that defines a raking channel, configured to form the windrow. 20. The method of claim 19 , wherein the raking mechanism comprises a set of rake wheels that are spaced apart to form the raking channel.