Gapping systems and methods

What is claimed is: 1. A method for operating a material handling system to achieve desired gapping of conveyed articles, the method comprising: sensing, on an infeed conveyor, an initial gap between a lead article and a following article; prior to the lead and following articles transporting onto a series of variable speed conveying units, generating, by a computing device, a motion profile for the following article based at least in part on the initial gap between the articles and a target final gap as the articles are discharged from the series of variable speed conveying units; and for each interval of time as the lead and following articles are conveyed across the series of variable speed conveying units: determining an assigned velocity and a resulting distance that the following article has conveyed on the series of variable speed conveying units based upon the motion profile at the particular interval of time; determining a particular conveying unit that corresponds to the resulting distance; and controlling, by the computing device, the particular conveying unit to operate at the assigned velocity, wherein the motion profile includes a selected one of: (i) an initial gap that is less than the target final gap, (ii) an initial gap that is equal to the target final gap to maintain a gap, and (iii) an initial gap that is greater than the target final gap to create headroom as a gap bank for subsequently received articles. 2. The method of claim 1 , wherein generating the motion profile for the following article further comprises: determining a motion profile generated for the lead article; and adjusting the generated motion profile for the following article to compensate for an overlap with the motion profile of the lead article when the lead and following article are predicted to be on the same conveying unit. 3. The method of claim 1 , wherein controlling the particular conveying unit to operate at the assigned velocity further comprises: determining based on the respective motion profiles that the lead and following articles will both have a least a portion of their respective length on a selected conveying unit; determining which of the lead and following articles have a larger relative proportion of contact area with the selected conveying unit; and selecting one of the respective motion profiles for controlling the selected conveying unit based upon the determined larger relative portion of contact area. 4. A method for operating a material handling system to achieve desired gapping of conveyed articles, the method comprising: sensing, on an infeed conveyor, an initial gap between a lead article and a following article; prior to the lead and following articles transporting onto a series of variable speed conveying units, generating, by a computing device, a motion profile for the following article based at least in part on the initial gap between the articles and a target final gap as the articles are discharged from the series of variable speed conveying units; and for each interval of time as the lead and following articles are conveyed across the series of variable speed conveying units: determining an assigned velocity and a resulting distance that the following article has conveyed on the series of variable speed conveying units based upon the motion profile at the particular interval of time; determining a particular conveying unit that corresponds to the resulting distance; and controlling, by the computing device, the particular conveying unit to operate at the assigned velocity, wherein generating the motion profile further comprises limiting a jerk in rate of change in acceleration of second article to remain within a threshold amount to prevent sliding of the second article on the series of variable speed conveying units. 5. The method of claim 4 , wherein limiting the jerk in the rate of change in acceleration comprises following a selected one of a triangular velocity profile and a curved velocity profile. 6. A method for operating a material handling system to achieve desired gapping of conveyed articles, the method comprising: sensing, on an infeed conveyor, an initial gap between a lead article and a following article; prior to the lead and following articles transporting onto a series of variable speed conveying units, generating, by a computing device, a motion profile for the following article based at least in part on the initial gap between the articles and a target final gap as the articles are discharged from the series of variable speed conveying units; and for each interval of time as the lead and following articles are conveyed across the series of variable speed conveying units: determining an assigned velocity and a resulting distance that the following article has conveyed on the series of variable speed conveying units based upon the motion profile at the particular interval of time; determining a particular conveying unit that corresponds to the resulting distance; controlling, by the computing device, the particular conveying unit to operate at the assigned velocity; determining whether a selected conveying unit is empty based on analyzing all active motion profiles at a current time interval; in response to determining that the selected conveying unit is empty, determining an adjusted velocity of an adjacent upstream conveying unit according to a motion profile associated with an upstream article when positioned to transition onto the selected conveying unit; and adjusting a velocity of the selected conveying unit to reach the adjusted velocity prior to the upstream article transitioning onto the selected conveying unit. 7. A computing device, comprising: a processor configured with processor-executable instructions to perform operations comprising: sensing on an infeed conveyor an initial gap between a lead article and a following article; prior to the lead and following articles transporting onto a series of variable speed conveying units, generating, by a computing device, a motion profile for the following article based at least in part on the initial gap between the articles and a target final gap as the articles are discharged from the series of variable speed conveying units; and for each interval of time as the lead and following articles are conveyed across the series of variable speed conveying units: determining an assigned velocity and a resulting distance that the following article has conveyed on the series of variable speed conveying units based upon the motion profile at the particular interval of time; determining a particular conveying unit that corresponds to the resulting distance; and controlling, by the computing device, the particular conveying unit to operate at the assigned velocity, wherein the motion profile includes a selected one of: (i) an initial gap that is less than the target final gap, (ii) an initial gap that is equal to the target final gap to maintain a gap, and (iii) an initial gap that is greater than the target final gap to create headroom as a gap bank for subsequently received articles. 8. The computing device of claim 7 , wherein the processor performs operations further comprises generating the motion profile for the following article by: determining a motion profile generated for the lead article; and adjusting the generated motion profile for the following article to compensate for an overlap with the motion profile of the lead article when the lead and following article are predicted to be on the same conveying unit. 9. The computing device of claim 7 , wherein the processor performs operations further comprises controlling the particular conveying unit to operate at the assigned velocity by: d