Calibration methods for multi-variety seed meters and related systems

What is claimed is: 1. A calibration method for a multi-variety seed meter, the method comprising: terminating a supply of seeds to a seed meter and subsequently operating the seed meter to discharge seeds therefrom during a first calibration cycle; upon terminating the supply of seeds to the seed meter, monitoring, by one or more computing devices, a parameter indicative of an amount of the seeds remaining within a seed pool of the seed meter based on data received from a first sensor as the seeds are being discharged from the seed meter during the first calibration cycle, the first sensor being configured to directly detect the presence, absence or fill-level of seeds at one or more locations within the seed meter; monitoring, by the one or more computing devices, an operation of the seed meter based on data received from a second sensor to identify the occurrence of a starvation event for the seed meter as the seeds are being discharged from the seed meter during the first calibration cycle; and determining, by the one or more computing devices, a target value for the monitored parameter based at least in part on a starvation interval for the seed meter defined between the termination of the supply of seeds to the seed meter and the occurrence of the starvation event. 2. The method of claim 1 , wherein the first sensor comprises a seed pool sensor configured to directly detect the presence, absence or fill-level of seeds within a seed acquisition region of the seed meter, the seed acquisition region corresponding to at least a portion of the seed pool across which a section of a seed transport member of the seed meter is rotated therethrough. 3. The method of claim 2 , wherein the monitored parameter corresponds to or is determined based at least in part on at least one of a number of filled seed cells detected by the seed pool sensor, a number of empty seed cells detected by the seed pool sensor or the fill-level of the seeds within the seed acquisition region of the seed meter as detected by the seed pool sensor. 4. The method of claim 2 , wherein monitoring the operation of the seed meter based on data received from the second sensor to identify the occurrence of the starvation event comprises monitoring at least one of a number of seed skips detected in the seeds being discharged from the seed meter, a number of empty seed cells detected within the seed meter, a vacuum pressure level applied to a seed transport member of the seed meter, or an airflow level applied to the seed transport member. 5. The method of claim 4 , wherein the second sensor comprises at least one of a seed delivery sensor configured to detect seeds discharged from the seed meter into an associated seed delivery mechanism, a sensor positioned within the seed meter downstream of the first sensor, a vacuum sensor, or an airflow sensor. 6. The method of claim 1 , further comprising: executing one or more additional calibration cycles for the seed meter; identifying one or more additional starvation intervals for the seed meter during the one or more additional calibration cycles. 7. The method of claim 6 , further comprising: referencing a starvation buffer value defined for the seed meter; determining a first non-calibrated starvation value for the first calibration cycle based on a value of the monitored parameter during the first calibration cycle at a moment at which an operating interval for the seed meter equals the starvation interval less the starvation buffer value; and determining one or more second non-calibrated starvation values for the one or more additional calibration cycles based on a value of the monitored parameter during each respective calibration cycle of the one or more additional calibration cycles at a moment at which an operating interval for the seed meter equals a respective starvation interval of the one or more additional starvation intervals less the starvation buffer value. 8. The method of claim 7 , wherein determining the target value for the monitored parameter comprises determining the target value for the monitored parameter as a function of the first non-calibrated starvation value and the one or more second non-calibrated starvation values. 9. The method of claim 7 , wherein the starvation buffer value is determined based at least in part on a sensing delay interval associated with the first and second sensors. 10. The method of claim 1 , further comprising: identifying, by the one or more computing devices, a meter empty interval for the seed meter between the termination of the supply of seeds to the seed meter and the occurrence of a meter empty event for the seed meter, the meter empty event occurring after the occurrence of the starvation event; and determining, by the one or more computing devices, a starvation buffer value for the seed meter based, at least in part, on the starvation interval and the meter empty interval. 11. The method of claim 10 , further comprising: determining a first non-calibrated starvation value for the first calibration cycle based on a value of the monitored parameter during the first calibration cycle at a moment at which an operating interval for the seed meter equals the meter empty interval less the starvation buffer value; executing one or more additional calibration cycles for the seed meter; identifying one or more additional meter empty intervals for the seed meter during the one or more additional calibration cycles; determining one or more second non-calibrated starvation values for the one or more additional calibration cycles based on a value of the monitored parameter during each respective calibration cycle of the one or more additional calibration cycles at a moment at which an operating interval for the seed meter equals a respective meter empty interval of the one or more additional meter empty intervals less the starvation buffer value. 12. The method of claim 11 , wherein determining the target value for the monitored parameter comprises determining the target value for the monitored parameter as a function of the first non-calibrated starvation value and the one or more second non-calibrated starvation values. 13. A calibration method for a multi-variety seed meter, the method comprising: terminating a supply of seeds to a seed meter and subsequently operating the seed meter to discharge seeds therefrom during a first calibration cycle; upon terminating the supply of seeds to the seed meter, monitoring, by one or more computing devices, a parameter indicative of an amount of the seeds remaining within a seed pool of the seed meter based on data received from a first sensor as seeds are being discharged from the seed meter during the first calibration cycle; monitoring, by the one or more computing devices, an operation of the seed meter based on data received from a second sensor to identify the occurrence of a starvation event for the seed meter as the seeds are being discharged from the seed meter during the first calibration cycle; continuing to monitor, by the one or more computing devices, the operation of the seed meter based on the data received from the second sensor to identify the occurrence of a meter empty event for the seed meter as the seeds are being further discharged from the seed meter during the first calibration cycle, the meter empty event occurring after the occurrence of the starvation event; determining, by the one or more computing devices, a starvation buffer value for the seed meter based at least in part on at least one of an intermediate operating interval defined between the occurrence of the starvation event and the occurrence of the meter empty ev