Dynamic tray spacing

What is claimed is: 1. A method comprising: monitoring a destination full sensor at a divert destination of a sortation conveyor; determining whether the destination full sensor indicates a full indication for a sustained period of time that corresponds to a debounce timer set at a length of time sufficient for an unobstructed article that is discharged to the divert destination to traverse past the sensor; in response to receiving a sustained full indication from the destination full sensor, ignoring any discharge command to the divert destination for an article inducted onto the sortation conveyor; in response to not receiving a sustained full indication from the destination full sensor: tracking a predicted fullness state based on a determined size of respective articles discharged to a divert destination to fulfill an order; determining whether the predicted fullness state is above a first threshold; and in response to determining that the predicted fullness state is not above the first threshold, discharging a trailing article to the assigned destination that is behind a leading article at a first dynamic separation distance that results in insufficient time to satisfy the debounce timer between respective discharges of the trailing and leading articles. 2. The method of claim 1 , further comprising, in response to not receiving a sustained full indication from the destination full sensor and in response to determining that the predicted fullness state is above the first threshold, ignoring a discharge command for the trailing article at divert location unless a nominal separation distance exists that results in satisfying the debounce timer between respective discharges of the trailing and leading articles. 3. The method of claim 1 , further comprising: in response to determining that the predicted fullness state is not above the first threshold, inducting onto the sortation conveyor a trailing article behind a leading article that are both destined for the divert location at a first dynamic separation distance that results in insufficient time to satisfy the debounce timer between respective discharges of the trailing and leading articles; and in response to determining that the predicted fullness state is above the first threshold, inducting onto the sortation conveyor the trailing article behind the leading article that are both destined for the divert location at a nominal separation distance that results in satisfying the debounce timer between respective discharges of the trailing and leading articles. 4. The method of claim 3 wherein inducting the trailing article behind the leading article comprises interleaving from another conveyor an article destined for another divert destination between the trailing and leading articles. 5. The method of claim 1 , wherein tracking the predicted fullness state based on the determined size of the respective articles discharged to the divert destination to fulfill the new order comprises: scanning identifying indicia of each respective article; and accessing size information associated with the identifying indicia. 6. The method of claim 1 , wherein tracking the predicted fullness state based on the determined size of the respective articles discharged to the divert destination to fulfill the new order comprises: scanning each respective article by a sensor; and extracting dimensional information from an image received from the sensor. 7. The method of claim 1 , further comprising setting the debounce timer based at least in part on: (i) a length of an article and (ii) a discharge speed of the sortation conveyor. 8. The method of claim 1 , wherein tracking the predicted fullness state based on the determined size of respective articles discharged to the divert destination to fulfill the order comprises: receiving an assignment of the new order to the divert destination of the sortation conveyor; and setting the predicted volume of the divert destination to an initial value of empty. 9. The method of claim 1 , further comprising: determining whether the predicted fullness state is above a second threshold that is less than the first threshold; in response to determining that the predicted fullness state is not above the second threshold, inducting a trailing article behind a leading article that are both destined for the divert location at a second dynamic separation distance that is less than the first dynamic separation distance and that satisfies a minimum gap supported by the sortation conveyor. 10. The method of claim 1 , wherein tracking the predicted fullness state based on a determined size of respective articles discharged to the divert destination to fulfill the order comprises tracking a selected one of: (i) a one-dimensional linear capacity; (ii) a two-dimensional area capacity; and (iii) a three-dimensional volumetric capacity of the divert destination. 11. A controller comprising: a network interface in communication with a host system; a device interface in communication with a sortation conveyor; and a processor subsystem coupled to the network interface and the device interface and which: monitors a destination full sensor at a divert destination of a sortation conveyor; determines whether the destination full sensor indicates a full indication for a sustained period of time that corresponds to a debounce timer set at a length of time sufficient for an unobstructed article that is discharged to the divert destination to traverse past the sensor; in response to receiving a sustained full indication from the destination full sensor, ignores any discharge command to the divert destination assigned by the host system for an article inducted onto the sortation conveyor; in response to not receiving a sustained full indication from the destination full sensor; tracks a predicted fullness state based on a determined size of respective articles discharged to a divert destination to fulfill an order; determines whether the predicted fullness state is above a first threshold; and in response to determining that the predicted fullness state is not above the first threshold, discharges a trailing article to the assigned destination that is behind a leading article at a first dynamic separation distance that results in insufficient time to satisfy the debounce timer between respective discharges of the trailing and leading articles. 12. The controller of claim 11 , further comprising, in response to not receiving a sustained full indication from the destination full sensor and in response to determining that the predicted fullness state is above the first threshold, the processor subsystem ignores a discharge command from the host system for the trailing article at divert location unless a nominal separation distance exists that results in satisfying the debounce timer between respective discharges of the trailing and leading articles. 13. The controller of claim 11 , wherein the processor subsystem: in response to determining that the predicted fullness state is not above the first threshold, inducts onto the sortation conveyor a trailing article behind a leading article that are both destined for the divert location at a first dynamic separation distance that results in insufficient time to satisfy the debounce timer between respective discharges of the trailing and leading articles; and in response to determining that the predicted fullness state is above the first threshold, inducts onto the sortation conveyor the trailing article behind the leading article that are both destined for the divert location at a nominal separation distance that results in satisfying the