Seed meter system with singulator control

I claim: 1. A method of adjusting seed singulation in a seed meter system of a planter while row-crop planting, the method comprising: conveying seeds through a seed meter with a seed disk for delivering the seeds onto an agricultural field during a row-crop planting session with a planter; singulating the seeds during conveyance through the seed meter for individual release out of the seed meter with a singulator; detecting a current singulator setting of the singulator corresponding to a current position of the singulator inside of the seed meter; detecting a current singulation rate; determining a target singulation rate; identifying a deviation of the current singulation rate with respect to the target singulation rate; if the deviation occurs, determining a target-corrected singulator setting corresponding to a target-corrected position of the singulator inside of the seed meter based on the identified deviation of the current singulation rate with respect to the target singulation rate; and adjusting the singulator from the current singulator setting to the target-corrected singulator setting to move the singulator from the current position target-corrected position inside the seed meter if the deviation fails to occur, executing a preemptive adjustment scheme to monitor performance of the seed meter such that if a negative influence on the singulating of the seeds during conveyance through the seed meter is detected, a preemptive adjustment to the singulator is performed. 2. The method of claim 1 wherein a control system receives signals from each of a singulator setting sensor arranged in the seed meter to detect the current singulator setting and a singulation sensor arranged in the seed meter to detect the current singulation rate and wherein while identifying the deviation of the current singulation rate with respect to the target singulation rate, the control system evaluates data based on the signal from the singulation sensor relative to the target singulation to determine a current deviation value and further comprising comparing the current deviation value to a threshold deviation value to determine whether to adjust the singulator. 3. The method of claim 2 wherein the step of monitoring performance of the seed meter includes monitoring at least one of a rotational speed of the seed disk, a vacuum pressure inside of the meter housing, and a travel speed of the seed meter relative to the agricultural field, detecting a change in the performance characteristic of the seed meter and making the preemptive adjustment to the singulator based on the detected change in the performance characteristic of the seed meter. 4. The method of claim 2 further comprising defining a seed type for planting with the planter; and making a preliminary adjustment to the singulators of the seed meters by adjusting the singulators to a preliminary singulator setting based at least in part on the defined seed type. 5. A method of adjusting seed singulation in a seed meter system of a planter while row-crop planting, the method comprising: defining a seed type for planting with a planter including a seed meter system with seed meters for delivering seeds onto an agricultural field during a planting session, wherein each seed meter includes a seed disk having seed pockets carrying the seeds to a release location in the seed meter for release into a seed tube delivering the seeds onto the field and a singulator configured to remove potential extra seeds from the seed pockets for leaving a single seed in each seed pocket of the seed disk; making a preliminary adjustment to the singulators of the seed meters for controlling how much mechanical interaction the singulators apply to the seeds in the seed pockets for removing the potential extra seeds from the seed pockets of the seed disks based at least in part on the defined seed type; monitoring seed delivery rates of the seed meters during the planting session; identifying a seed meter having a seed delivery rate discontinuity; making a correction adjustment to the singulator in the seed meter with the identified seed delivery rate discontinuity to change how much mechanical interaction the singulator applies to the seeds in the seed pockets based on the identified seed delivery rate discontinuity; and if the seed meter fails to have the seed delivery rate discontinuity, executing a preemptive adjustment scheme to monitor performance of the seed meter such that if a negative influence on the singulating of the seeds during conveyance through the seed meter is detected, a preemptive adjustment to the singulator is performed. 6. The method of claim 5 wherein the singulator includes an adjustment drive system and a seed-removing assembly moved by the adjustment drive system and wherein the control system commands the adjustment drive system to move the seed-removing assembly between a maximum singulating position applying a maximum amount of mechanical interaction to the seeds in the seed pockets and a minimum singulating position applying a minimum amount of mechanical interaction to the seeds in the seed pockets. 7. The method of claim 6 wherein the preliminary adjustment to the singulators includes calibrating each singulator by moving the seed-removing assembly from a first position relatively closer to the maximum singulating position creating a purposeful over-singulation condition in which the seed-removing assembly empties all seeds from individual seed pockets toward a second position relatively closer to the minimum singulating position while priming the seed meter by rotating the seed disk for simultaneously lessening the amount of mechanical interaction applied by the seed-removing assembly to the seeds in the seed pockets while priming the seed meter and stopping movement of the seed-removing assembly from the first position to the second position upon detection of seeds in the seed pockets to define a base position of the seed removing assembly. 8. The method of claim 5 wherein, during the preliminary adjustment, a control system commands an adjustment drive system of the singulator to move a seed-removing assembly within the seed meter to a base position corresponding to a predetermined base setting for the defined seed type. 9. The method of claim 8 wherein the seed-removing assembly includes at least one spool and the control system commands movement of the at least one spool relatively nearer to or farther from the seed pockets during the preliminary adjustment until the spool arrives at the base position. 10. The method of claim 9 wherein the seed-removing assembly includes a first spool and a second spool arranged on radial opposite sides of the seed pockets of the seed disk and wherein the control system commands movement of the first and second spools in opposite directions toward each other to move the first and second spools closer to the seed pockets or in opposite directions away from each other to move the first and second spools farther from the seed pockets while moving the first and second spools to the base position. 11. The method of claim 5 wherein the correction adjustment includes implementing a correction strategy determined based at least in part on the defined seed type. 12. The method of claim 11 wherein the correction strategy includes making relatively larger correction adjustments for relatively larger seed types and making relatively smaller correction adjustments for relatively smaller seed types. 13. The method of claim 5 wherein the singulator includes an adjustment drive system arranged for moving a seed-removing assembly and wherein a control system sends a corr