Actuation of a conveying system

1 . A method, comprising the following: receiving data from at least one detection device which regularly detects single items on a sorting surface of a conveying system, wherein a separately actuatable drive element is assigned in each case to a plurality of partial surfaces of the sorting surface, regularly determining a region on the sorting surface taken up by the respective single item on the basis of the obtained data by means of triangulations for as long as the single item is situated on the sorting surface, determining control commands for actuating the drive elements, which are assigned to a partial surface and correspond to a specific region on the sorting surface taken up by the respective single item, on the basis of a destination at the sorting surface provided for the respective single item and actuating the drive elements with the determined control commands. 2 . The method according to claim 1 , wherein the sorting surface is suitable for simultaneously receiving a plurality of single items as 2D bulk and/or the sorting surface is arranged in such a way that a plurality of single items are suppliable thereto as 2D bulk and/or a plurality of single items are supplied to the sorting surface as 2D bulk. 3 . The method according to claim 1 , furthermore comprising the following: determining an identification of the single items which are situated on the sorting surface and determining the designated destination at the sorting surface for each identified single item on the basis of the identification of the respective single item. 4 . The method according to claim 1 , wherein the determination of a region on the sorting surface taken up by a respective single item by means of triangulations on the basis of the obtained data comprises the following for determining benchmark data for the triangulations: evaluating structure features and/or evaluating geometries and/or identifying different materials. 5 . The method according to claim 1 , wherein the following is additionally taken into account for determining control commands for actuating the drive elements for a respective single item: regions on the sorting surface taken up by other single items and/or the destinations of other single items at the sorting surface and/or an output of at least one sensor. 6 . The method according to claim 1 , wherein the following is additionally taken into account for determining control commands for actuating the drive elements for a respective single item: an evaluation of a dynamic behavior of the single item in response to preceding actuations of the drive elements for the single item and/or a feedback of the drive elements. 7 . The method according to claim 1 , wherein the control commands for actuating the drive elements are respectively only determined for drive elements which are assigned to a partial surface which is comprised by the specific region on the sorting surface taken up by the respective single item, or respectively only determined for drive elements which are assigned to a partial surface which intersects with the specific region on the sorting surface taken up by the respective single item, or respectively only determined for drive elements which are assigned to a partial surface which corresponds to, or adjoins, the specific region on the sorting surface taken up by the respective single item, or respectively only determined for part of a residual path of the single item to the determined destination, at least for the majority of a path of the single item on the sorting surface. 8 . The method according to claim 1 , wherein the actuation of the drive elements is an adaptive actuation which is realized by means of a fuzzy logic or a neural network or a fuzzy neural system. 9 . The method according to claim 1 , wherein the drive elements comprise the following: rollers or balls or strips of a strip conveyor or sections of a sectional conveyor or belts of a belt conveyor. 10 . An apparatus comprising at least one memory with program instructions and at least one processor, the program instructions, when executed by the at least one processor, configured to cause the apparatus or a system to perform the following: receive data from at least one detection device which regularly detects single items on a sorting surface of a conveying system, wherein a separately actuatable drive element is assigned in each case to a plurality of partial surfaces of the sorting surface, regularly determine a region on the sorting surface taken up by the respective single item on the basis of the obtained data by means of triangulations for as long as the single item is situated on the sorting surface, determine control commands for actuating the drive elements, which are assigned to a partial surface and correspond to a specific region on the sorting surface taken up by the respective single item, on the basis of a destination at the sorting surface provided for the respective single item and actuate the drive elements with the determined control commands. 11 . The apparatus according to claim 10 , wherein the sorting surface is suitable for simultaneously receiving a plurality of single items as 2D bulk and/or the sorting surface is arranged in such a way that a plurality of single items are suppliable thereto as 2D bulk and/or a plurality of single items are supplied to the sorting surface as 2D bulk. 12 . The apparatus according to claim 10 , wherein the program instructions, when executed by the at least one processor, are furthermore configured to cause the apparatus or the system to: determine an identification of the single items which are situated on the sorting surface and determine the designated destination at the sorting surface for each identified single item on the basis of the identification of the respective single item. 13 . The apparatus according to claim 10 , wherein the determination of a region on the sorting surface taken up by a respective single item by means of triangulations on the basis of the obtained data comprises the following for determining benchmark data for the triangulations: evaluating structure features and/or evaluating geometries and/or identifying different materials. 14 . The apparatus according to claim 10 , wherein the following is additionally taken into account for determining control commands for actuating the drive elements for a respective single item: regions on the sorting surface taken up by other single items and/or the destinations of other single items at the sorting surface and/or an output of at least one sensor. 15 . The apparatus according to claim 10 , wherein the following is additionally taken into account for determining control commands for actuating the drive elements for a respective single item: an evaluation of a dynamic behavior of the single item in response to preceding actuations of the drive elements for the single item and/or a feedback of the drive elements. 16 . The apparatus according to claim 10 , wherein the control commands for actuating the drive elements are respectively only determined for drive elements which are assigned to a partial surface which is comprised by the specific region on the sorting surface taken up by the respective single item, or respectively only determined for drive elements which are assigned to a partial surface which intersects with the specific region on the sorting surface taken up by the respective single item, or respectively only determined for drive elements which are assigned to a partial sur