Method and apparatus for optimizing automated packaging

The invention claimed is: 1. A method for optimizing automated packaging of a shipment set, the method comprising: arranging one or more items forming the shipment set in an arrangement to be automatically packaged, obtaining three-dimensional image data of said arrangement, processing said image data to identify flat surfaces of said one or more items, in a horizontal plane, a transversal plane, and a longitudinal plane, and to identify edges where said flat surfaces adjoin, determining dimensions of individual items, of said one or more items, present in said arrangement and orientation and position of each of said one or more items present in said arrangement, performing an analysis of the determined dimensions of the individual items, and the orientation and position of each of said one or more items, with respect to at least one optimization criterion, and depending on said analysis, generating signals indicating to either proceed with automated packaging of said arrangement or to modify or to divert said arrangement. 2. The method according to claim 1 , wherein said obtaining three-dimensional image data of said arrangement includes at least one of using a depth camera, using two or more cameras each being positioned to have a different perspective of the arrangement of articles, using multiple pictures of the arrangement taken by the same camera at different stages during the arranging the items, moving the arrangement relative to a camera and using multiple pictures taken by said same camera at different times during said relative moving, or using a background having a specific design. 3. The method according to claim 1 , wherein said processing said image data includes at least one of using a product data database with dimensional information on the one or more items in the arrangement and generating a virtual reconstruction of the one or more items in the arrangement. 4. The method according to claim 3 , wherein generating a virtual reconstruction of the one or more items in the arrangement comprises determining rectangular surfaces in a horizontal, transversal and longitudinal plane, determining edges where said rectangular surfaces adjoin, determining nodes where said edges join, generating the virtual reconstruction from said nodes and edges. 5. The method according to claim 1 , said method being employed at a packaging system, wherein said at least one optimization criterion includes at least one of the following criteria: maximum dimensions of boxes that a box forming station of said packaging system is able to create, speed of the packaging process performed by the packaging system, amount of cardboard used for and/or amount of cardboard wasted upon creating a box for the arrangement at a box forming station of the packaging system, volume of a box for the arrangement, postage, presence of unwanted folds, amount of unused space in a box for the arrangement. 6. The method according to claim 1 , wherein the generating signals indicating to either proceed with automated packaging of said arrangement or to modify or to divert said arrangement includes at least one of generating optical and/or acoustical signals for an operator, generating at least one of images or messages on a display device, generating an image showing instructions to modify the arrangement and/or a virtual image of a modified arrangement, or controlling an apparatus for automatically modifying the arrangement. 7. An apparatus for optimizing automated packaging of a shipment set, said shipment set comprising one or more items arranged in an arrangement for being automatically packaged, the apparatus comprising: at least one imager to obtain three-dimensional image data of said arrangement and at least one computer system including at least one processor and at least one nontransitory processor-readable medium communicatively coupled to the at least one processor and which stores at least one of processor-executable instructions or data which, when executed by the at least one processor causes the at least one processor to: process said image data to identify flat surfaces of said one or more items, in a horizontal plane, a transversal plane, and a longitudinal plane, and to identify edges where said flat surfaces adjoin, determine dimensions of individual items, of said one or more items, present in said arrangement and orientation and position of each of said items present in said arrangement, analyze the determined dimensions of the individual items, and the orientation and position of each of said one or more items, with respect to at least one optimization criterion, and depending on said analysis, generate signals indicating to either proceed with automated packaging of said arrangement or to modify or to divert said arrangement, and the apparatus further comprising: a signaling device communicatively coupled to receive the generated signals. 8. The apparatus according to claim 7 , wherein said at least one imager includes at least one of a depth camera, two or more cameras positioned to have a different perspective of the arrangement of articles, a camera adapted to take pictures of the arrangement at different stages during arranging said arrangement, a camera adapted to take multiple pictures at different times during a relative movement of the arrangement and the camera, or a camera and a background having a specific design. 9. The apparatus according to claim 7 , wherein said at least one processor at least one of: retrieves data from a product data database with dimensional information on the one or more items in the arrangement and generates a virtual reconstruction of the one or more items in the arrangement. 10. The apparatus according to claim 7 , said signaling device including at least one of an optical signaling device, an acoustical signaling device, a monitor, a virtual reality device. 11. The apparatus according to claim 7 , further comprising a gripping and positioning device adapted for modifying said arrangement. 12. The apparatus according to claim 7 , further comprising a transportation device adapted for diverting said arrangement to a station for rearrangement or manually packaging. 13. A system to automatically create custom sized cardboard boxes, the system comprising: at least one imager to obtain three-dimensional image data of an arrangement of one or more items that constitute a shipment set; and at least one computer system including at least one processor and at least one nontransitory processor-readable medium communicatively coupled to the at least one processor and which stores at least one of processor-executable instructions or data which, when executed by the at least one processor causes the at least one processor to: process said image data to identify flat surfaces of said one or more items, in a horizontal plane, a transversal plane, and a longitudinal plane, and to identify edges where said flat surfaces adjoin, determine dimensions of individual items, of said one or more items, present in said arrangement and orientation and position of each of said items present in said arrangement, analyze the determined dimensions of the individual items, and the orientation and position of each of said one or more items, with respect to at least one optimization criterion, and depending on said analysis, generate signals indicating to either proceed with automated packaging of said arrangement or to modify or to divert said arrangement, and the system further comprising: a signaling device communicatively coupled to receive the generated signals; and a packaging machine that that at least one of positions a packaging blank