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

1 - 20 . (canceled) 21 . An agricultural harvesting machine, comprising: one or more controllable subsystems; a forward-looking sensor configured to: detect a first value of a first plant characteristic in a first area forward of the agricultural harvesting machine relative to a direction of travel of the agricultural harvesting machine; and detect a second value of the first plant characteristic in a second area forward of the agricultural harvesting machine relative to a direction of travel of the agricultural harvesting machine; a component sensor configured to detect a value of a characteristic of a component of the agricultural harvesting machine; one or more processors; and memory storing instructions, executable by the one or more processors, that, when executed by the one or more processors, cause the one or more processors to: generate a conversion factor based on the value of the first plant characteristic in the first area and the value of the characteristic of the component of the agricultural harvesting machine, the conversion factor configured to generate predictive values of a second plant characteristic based on values of the first plant characteristic, the second plant characteristic different than the first plant characteristic; generate a predictive value of the second plant characteristic in the second area based on the second value of the first plant characteristic in the second area and the conversion factor; and control the one or more controllable subsystems based on the predictive value of the second plant characteristic in the second area. 22 . The agricultural harvesting machine of claim 21 , wherein the forward-looking sensor comprises one of: (i) a camera; (ii) LIDAR sensor; (iii) RADAR sensor; or (iv) an ultrasound sensor. 23 . The agricultural harvesting machine of claim 21 , wherein the one or more controllable subsystems comprises one or more of: (i) a propulsion subsystem; (ii) a threshing subsystem; (iii); a separator subsystem; (iv) a cleaning subsystem; (v) a material handling subsystem; or (vi) a residue subsystem. 24 . The agricultural harvesting machine of claim 21 , wherein the instructions, when executed by the one or more processors, configure the one or more processors to utilize linear regression to generate the conversion factor. 25 . The agricultural harvesting machine of claim 24 , wherein the linear regression comprises recursive least squares. 26 . The agricultural harvesting machine of claim 21 , wherein the instructions, when executed by the one or more processors, configure the one or more processors to utilize adaptive filtering to generate the conversion factor. 27 . The agricultural harvesting machine of claim 21 , wherein the first plant characteristic comprises plant height. 28 . The agricultural harvesting machine of claim 21 , wherein the first plant characteristic comprises plant volume. 29 . The agricultural harvesting machine of claim 21 , wherein the characteristic of the component comprises a load on the component. 30 . The agricultural harvesting machine of claim 21 , wherein the forward-looking sensor is configured to generate first sensor data indicative of the first value of the first plant characteristic in the first area and to generate second sensor data indicative of the second value of the first plant characteristic in the second area and wherein the instructions, when executed by the one or more processors, further configure the one or more processors to: obtain a first topographic value indicative of an elevation of the first area; obtain a second topographic value indicative of an elevation of the second area; identify the first value of the first plant characteristic in the first area based on the first sensor data and the first topographic value; and identify the second value of the first plant characteristic in the second area based on the second sensor data and the second topographic value. 31 . The agricultural harvesting machine of claim, wherein the instructions include instructions that cause the one or more processors to: determine a time offset between a first time, when the forward-looking sensor detects the first value of the first plant characteristic in the first area and a second time, when plants from the first area are being processed by the agricultural harvesting machine; and correlate the first value of the first plant characteristic in the first area and the value of the characteristic of the component based on the time offset. 32 . A method of controlling an agricultural harvesting machine, the method comprising: detecting, with a first sensor, a first value of a first plant characteristic in a first area of interest; detecting, with a second sensor, a value of characteristic of a working component of the agricultural harvesting machine as plants from the first area are processed by the agricultural harvesting machine; generating a conversion factor based on the first value of the of the first plant characteristic in the first area of interest and the value of the characteristic of the working component of the agricultural harvesting machine, the conversion factor configured to generate predictive values of a second plant characteristic based on values of the first plant characteristic, the second plant characteristic different than the first plant characteristic; detecting, with the first sensor, a second value of the first plant characteristic in a second area of interest; generating a predictive value of the second plant characteristic in the second area of interest based on the conversion factor and the second value of the first plant characteristic in the second area of interest; and controlling one or more controllable subsystems of the agricultural harvesting machine based on the predictive value of the second plant characteristic in the second area of interest. 33 . The method of claim 32 , wherein generating the conversion factor comprises generating the conversion factor utilizing linear regression. 34 . The method of claim 32 , wherein generating the conversion factor comprises generating the conversion factor utilizing adaptive filtering. 35 . The method of claim 32 , wherein controlling one or more controllable subsystems of the agricultural harvesting machine based on the predictive value of the second plant characteristic in the second area of interest comprises controlling one or more of: (i) a propulsion subsystem of the agricultural harvesting machine; (ii) a threshing subsystem of the agricultural harvesting machine; (iii); a separator subsystem of the agricultural harvesting machine; (iv) a cleaning subsystem of the agricultural harvesting machine; (v) a material handling subsystem of the agricultural harvesting machine; or (vi) a residue subsystem of the agricultural harvesting machine. 36 . The method of claim 32 , wherein detecting, with the first sensor, the first value of the first plant characteristic in the first area of interest comprises detecting, with the first sensor, a value of plant height in the first area of interest. 37 . The method of claim 32 , wherein detecting, with the first sensor, the first value of the first plant characteristic in the first area of interest comprises detecting, with the first sensor, a value of plant volume in the first area of interest. 38 . The method of claim 32 , wherein detecting, with the second sensor, the value of characteristic of the working component of the agricultural harvesting machine as plants from the first area are p