Determination of an adjustment of a roll stand

The invention claimed is: 1. A method for determining an adjustment of a roller stand when slabs are being rolled in at least one rolling pass, the slabs passing through a furnace in a conveying direction such that there are a plurality of slabs in the furnace, the slabs being heated to a final temperature while passing through the furnace, the method comprising: receiving, by a determining device, information showing regions occupied by the slabs relative to one another when passing through the furnace in at least one direction orthogonal to the conveying direction; and determining, by the determining device using the information, for at least one rolling pass of a respective slab of the plurality of slabs, the adjustment of the roller stand performing the at least one rolling pass without one of prior determination of a respective temperature distribution of the respective slab and utilization of a determined temperature of the respective slab; wherein the determining device, when determining the adjustment of the roller stand for the respective slab, takes into account a first region occupied by a respective preceding slab, located in the conveying direction, relative to the respective slab and a second region occupied by a respective following slab, located in the conveying direction, relative to the respective slab; and wherein the determining device supplies the adjustment of the roller stand for the respective slab to a control device, which controls the roller stand when the respective slab is being rolled, taking into account the adjustment. 2. The determination method as claimed in claim 1 , wherein: the determining device additionally receives information showing a spacing between slabs which are adjacent in the conveying direction when passing through the furnace in the conveying direction; and the determining device takes into account the spacing between the slabs which are adjacent in the conveying direction when determining the adjustment of the roller stand. 3. The determination method as claimed in claim 1 , wherein the adjustment varies over a width of the respective slab. 4. The determination method as claimed in claim 1 , wherein the determining device determines the adjustment of the roller stand as a function over a location in a longitudinal direction of the respective slab or as a function of time. 5. The determination method as claimed in claim 1 , wherein: the determining device receives further parameters which describe the slabs; and the determining device takes into account the further parameters when determining the adjustment of the roller stand. 6. The determination method as claimed in claim 1 , wherein: the determining device receives at least one of a furnace temperature and a dwell time of the slabs in the furnace; and the determining device takes into account at least one of the furnace temperature and the dwell time of the slabs when determining the adjustment of the roller stand. 7. The determination method as claimed in claim 1 , wherein: the determining device receives charging data of the furnace, which describe a charging of the furnace with the slabs; and the determining device takes into account the charging data of the furnace when determining the adjustment of the roller stand. 8. The determination method as claimed in claim 1 , wherein the determining device receives sensor detected data which are characteristic of regions occupied by each of the slabs in the furnace. 9. The determination method as claimed in claim 1 , wherein the determining device determines the adjustment of the roller stand by one of: a multi-dimensional linear regression; a non-linear approximation through one of multi-dimensional polynomials and splines; and a neural network. 10. A non-transitory computer-readable medium storing a computer program, the computer program comprising machine code which, when executed by a determining device, causes the determining device to perform a determination method for determining an adjustment of a roller stand when slabs are being rolled in at least one rolling pass, the slabs passing through a furnace in a conveying direction such that there are a plurality of slabs in the furnace, the slabs being heated to a final temperature while passing through the furnace, the method comprising: receiving, by the determining device, information showing regions occupied by the slabs relative to one another when passing through the furnace in at least one direction orthogonal to the conveying direction; and determining, by the determining device using the information, for at least one rolling pass of a respective slab of the plurality of slabs, the adjustment of the roller stand performing the at least one rolling pass without one of prior determination of a respective temperature distribution of the respective slab and utilization of a determined temperature of the respective slab; wherein the determining device, when determining the adjustment of the roller stand for the respective slab, takes into account a first region occupied by a respective preceding slab, located in the conveying direction, relative to at least one of the respective slabs and a second region occupied by a respective following slab, located in the conveying direction, relative to the respective slab; and wherein the determining device supplies the adjustment of the roller stand for the respective slab to a control device, which controls the roller stand when the respective slab is being rolled, taking into account the adjustment. 11. The determining device, wherein the determining device is programmed with the computer program as claimed in claim 10 , such that the determining device carries out the determination method. 12. A combination of the determining device as claimed in claim 11 with the control device, wherein: the determining device and the control device are connected to one another, such that the determining device transmits the adjustment of the roller stand that it has determined to the control device; the control device controls the roller stand when the respective slab is being rolled; and when the slabs are being rolled, the control device takes into account the adjustment of the roller stand that is transmitted to it. 13. A rolling plant for rolling slabs, wherein: the rolling plant has at least one furnace, through which the slabs pass in a conveying direction and which heats the slabs to a final temperature; the furnace is dimensioned in such a way that, as viewed in the conveying direction, a plurality of slabs are in the furnace at the same time; the rolling plant furthermore has at least one roller stand, to which the slabs are fed for the purpose of rolling; the rolling plant has the combination as claimed in claim 12 ; and the roller stand is controlled by the control device of the combination.