Closed loop control of filling mechanisms

What is claimed is: 1. A material loading vehicle, comprising: a frame; one or more unloading apparatus actuators; an unloading apparatus configured to be positioned, by the one or more unloading apparatus actuators, relative to the frame of the material loading vehicle to provide material to a receiving vehicle; a current landing point detector sensing a current landing point of the material and identifying a difference between a target landing point and the current landing point; and a control system configured generate an output to change a relative positioning between the material loading vehicle and the receiving vehicle based on the difference between the target landing point and the current landing point. 2. The material loading vehicle of claim 1 , wherein the current landing point detector comprises an image capture device configured to capture an image that includes a stream of the material. 3. The material loading vehicle of claim 2 , wherein the current landing point detector comprises: a material trajectory sensor configured to identify a trajectory of the stream of the material based on the image; and an intersection detector configured to: identify a planar surface corresponding to a surface on which the material is currently landing; and identify, as the current landing point, an intersection point between the trajectory of the stream of material and the planar surface corresponding to the surface on which the material is currently landing. 4. The material loading vehicle of claim 1 , wherein the output comprises a control signal that controls a propulsion subsystem of the material loading vehicle to change a speed of the material loading vehicle in order to change the relative positioning between the material loading vehicle and the receiving vehicle. 5. The material loading vehicle of claim 1 , wherein the unloading apparatus includes one or more of a spout or a flap; wherein the one or more unloading apparatus actuators include one or more of a spout actuator configured to position the spout relative to the frame of the material loading vehicle or a flap actuator configured to position the flap relative to the frame of the material loading vehicle; and wherein the output comprises one or more control signals, the one or more control signals including one or more of: a first control signal that controls the spout actuator to change a position of the spout relative to the frame of the material loading vehicle in order to change the relative positioning between the material loading vehicle and the receiving vehicle; or a second control signal that controls the flap actuator to change a position of the flap relative to the frame of the material loading vehicle in order to change the relative positioning between the material loading vehicle and the receiving vehicle. 6. The material loading vehicle of claim 1 , wherein the output comprises an indication of the difference between the target landing point and the current landing point and wherein the control system is configured to provide the indication to the receiving vehicle to implement repositioning of the receiving vehicle in order to change the relative positioning between the material loading vehicle and the receiving vehicle. 7. The material loading vehicle of claim 1 , wherein the output comprises an indication of direction in which the receiving vehicle should reposition and wherein the control system is configured to provide the indication to the receiving vehicle to implement repositioning of the receiving vehicle to. 8. The material loading vehicle of claim 1 , wherein the output comprises an indication of a change in speed of the receiving vehicle and wherein the control system is configured to provide the indication to the receiving vehicle to implement repositioning of the receiving vehicle. 9. An agricultural system configured to control relative positioning between a receiving vehicle and a material loading vehicle comprising: a sensor configured to sense a current landing point of material provided by the material loading vehicle to the receiving vehicle and to generate sensor data indicative of the current landing point of the material; 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 perform steps comprising: identifying a difference between a target landing point and the current landing point based on the sensor data; generating an offset signal indicative of the difference between the target landing point and the current landing point; and controlling one or more of the receiving vehicle or the material loading vehicle to change a relative positioning between the receiving vehicle and the material loading vehicle. 10. The agricultural system of claim 9 , wherein the sensor comprises an image capture device configured to capture an image that includes a stream of the material. 11. The agricultural system of claim 10 , wherein identifying the difference between the target landing point and the current landing point comprises: identifying a trajectory of the stream of the material based on the image; and identifying a planar surface corresponding to a surface on which the material is currently landing; and identifying, as the current landing point, an intersection point between the trajectory of the stream of material and the planar surface corresponding to the surface on which the material is currently landing. 12. The agricultural system of claim 9 , wherein controlling comprises controlling the material loading vehicle to change a speed of the material loading vehicle in order to change the relative positioning between the receiving vehicle and the material loading vehicle. 13. The agricultural system of claim 9 , wherein controlling comprises controlling the receiving vehicle to change a speed of the receiving vehicle in order to change the relative positioning between the receiving vehicle and the material loading vehicle. 14. The agricultural system of claim 9 , wherein controlling comprises controlling one or more actuators to actuate an unloading apparatus of the material loading vehicle in order to change the relative positioning between the receiving vehicle and the material loading vehicle. 15. A computer implemented method of controlling relative positioning between a receiving vehicle and a material loading vehicle, the computer implemented method comprising: sensing a current landing point of material provided by the material loading vehicle to the receiving vehicle and to generate sensor data indicative of the current landing point of the material; identifying a difference between a target landing point and the current landing point based on the sensor data; generating an offset signal indicative of the difference between the target landing point and the current landing point; and controlling one or more of the receiving vehicle or the material loading vehicle to change a relative positioning between the receiving vehicle and the material loading vehicle. 16. The computer implemented method of claim 15 , wherein sensing the current landing point comprises capturing an image of stream of the material provided by the material loading vehicle to the receiving vehicle. 17. The computer implemented method of claim 16 , wherein identifying the difference between the target landing point and the current landing point comprises: identifying a trajectory of the stream of the material based on the image; and identifying a