Adaptive forward-looking biomass conversion and machine control during crop harvesting operations

What is claimed is: 1. An agricultural harvesting machine comprising: a controllable subsystem; a forward-looking crop sensor configured to detect a characteristic of the crop, in sensed regions in front of the agricultural harvesting machine relative to a direction of travel of the agricultural harvesting machine, and generate crop characteristic sensor signals having values indicative of the characteristic of the crop; a component sensor configured to detect a characteristic of a component of the agricultural harvesting machine that is indicative of a density of crop being processed by the agricultural harvesting machine, and generate component characteristic sensor signals indicative of the characteristic of the component; conversion factor generator logic configured to: receive a first crop characteristic sensor signal generated by the forward-looking crop sensor having a first value indicative of the characteristic of crop in a first sensed region in front of the agricultural harvesting machine in a direction of travel; receive a first component characteristic sensor signal generated by the component sensor having a value indicative of a density of the crop from the first sensed region; and adapt a conversion factor used to convert the values indicative of the characteristic of the crop to values indicative of biomass of the crop, based on the first crop characteristic sensor signal and the first component characteristic sensor signal; volume-to-biomass conversion logic configured to: receive a second crop characteristic sensor signal generated by the forward-looking crop sensor having a second value indicative of the characteristic of crop in a second sensed region in front of the agricultural harvesting machine relative to a direction of travel of the agricultural harvesting machine; generate a predictive value indicative of a biomass of crop in the second sensed region based on the second crop characteristic sensor signal and the conversion factor; recommendation logic configured to receive the value indicative of the biomass of crop in the second sensed region and generate a recommendation to change operation of the controllable subsystem, based on the value indicative of the biomass of crop in the second sensed region; and a control system that controls the controllable subsystem based on the generated recommendation. 2. The agricultural harvesting machine of claim 1 and further comprising: volume generator logic configured to receive the crop characteristic signals and generate crop volume signals indicative of a volume of crop in the sensed regions. 3. The agricultural harvesting machine of claim 2 , wherein the conversion factor is a volume-to-biomass conversion factor and wherein the conversion factor generator logic is configured to receive a crop volume signal and a component characteristic signal indicative of the biomass being processed when the crop from the sensed region affects the operation of the component and adapt the volume-to-biomass conversion factor based on the crop volume signal and the component characteristic sensor signal indicative of the biomass. 4. The agricultural harvesting machine of claim 2 , wherein the forward-looking crop sensor comprises: a crop height detector configured to detect an average height of the crop over the sensed regions in front of the agricultural harvesting machine. 5. The agricultural harvesting machine of claim 1 , further comprising: a threshing rotor; an actuator that drives the threshing rotor; and wherein the component sensor comprises: a rotor actuator sensor configured to detect a rotor metric indicative of a load on the threshing rotor. 6. The agricultural harvesting machine of claim 1 , further comprising: time offset logic configured to determine a time offset between a first time, when the forward-looking crop sensor detects the characteristic of the crop and a second time, when the crop sensed by the forward-looking sensor at the first time is being processed by the agricultural harvesting machine at a point when the component sensor detects the characteristic of a component. 7. The agricultural harvesting machine of claim 6 , wherein the conversion factor generator logic is configured to correlate the first crop characteristic sensor signal and the first component characteristic sensor signal based on the time offset. 8. The agricultural harvesting machine of claim 4 , wherein the volume generator logic is configured to receive topographic valves indicative of an elevation of the sensed regions and wherein the volume generator logic is configured to determines the crop volume of crop in the sensed regions, based at least in part on the topographic values. 9. The agricultural harvesting machine of claim 1 , wherein the adaptation logic utilizes a least mean square algorithms to intermittently calculate the conversion factor. 10. The agricultural harvesting machine of claim 1 , wherein the conversion factor generator logic is configured to utilize a recursive least square error algorithm to intermittently calculate the conversion factor. 11. The agricultural harvesting machine of claim 1 , and further comprising: a propulsion subsystem, wherein the recommendation logic generates a ground speed recommendation and wherein the control system controls the propulsion subsystem based on the ground speed recommendation. 12. The agricultural harvesting machine of claim 1 , further comprising: datastore interaction logic that stores the adapted conversion factor in a datastore. 13. A method of controlling an agricultural harvesting machine, the method comprising: detecting a crop characteristic value of a first crop at a first sensed region in front of the agricultural harvesting machine; generating a first crop characteristic signal indicative of the crop characteristic value of the first crop at the first sensed region in front of the agricultural harvesting machine; detecting a first operating characteristic value indicative of an operating characteristic of a working component of the agricultural harvesting machine as the working component processes the first crop, the first operating characteristic value being indicative of a density of the first crop; generating an operating characteristic signal indicative of the detected first operating characteristic; adapting a conversion factor used to convert between values of the crop characteristic and values of biomass, based on the first crop characteristic signal and the operating characteristic signal; detecting a second crop characteristic value of a second crop at a second sensed region in front of the agricultural harvesting machine; generating a second crop characteristic signal indicative of the crop characteristic value of the second crop at the second sensed region in front of the agricultural harvesting machine; predicting a crop biomass value of the second crop at the second sensed region based on the adapted conversion factor and the second crop characteristic value; generating, an operational recommendation based, at least in part, on the predicted crop biomass value; and controlling the agricultural harvesting machine based on the operational recommendation. 14. The method of claim 13 , further comprising: determining a time offset that corresponds to a time it takes the first crop at the first sensed region in front of the agricultural harvesting machine to be processed by the working component of the agricultural harvesting machine. 15. The method of claim 14 , wherein detecting the crop characteristic value comprises detecting an average heig