Forage harvester

The invention claimed is: 1. A forage harvester configured for one or both of performing a harvesting process with at least one work assembly for harvesting a crop or for processing harvested material of the crop in a context of the harvesting the process, wherein the harvested material comprises grain components, the forage harvester comprising: a corn cracker configured to process the grain components to comminute the harvested material, the corn cracker including at least two rollers configured to rotate, wherein the at least two rollers including a gap with an adjustable gap width therebetween through which the harvested material is transported, wherein the corn cracker including machine parameters comprising the adjustable gap width and one or both of adjustable rotational speed of one or both of the at least two rollers or an adjustable differential rotational speed of the at least two rollers; and a driver assistance system configured to: use an optimization model comprising at least one multidimensional characteristic map in order to control the corn cracker, the at least one multidimensional characteristic map representing a relationship between a processing quality of the grain components and at least three parameters, the at least three parameters comprising at least one input parameter and at least one output parameter, the at least one input parameter varying during the harvesting process and representing a current harvesting process state, the at least one output parameter comprising at least one of the machine parameters of the corn cracker; determine, during the harvesting process and based on both the at least one input parameter and the optimization model comprising the at least one multidimensional characteristic map, a value of the at least one output parameter in order to achieve a uniform given processing quality of the grain components during the harvesting process; and cause adjustment of the at least one of the machine parameters of the corn cracker based on the value of the at least one output parameter in order to achieve the uniform given processing quality of the grain components during the harvesting process. 2. The forage harvester of claim 1 , wherein the at least three parameters of the at least one multidimensional characteristic map comprise: at least two input parameters representing the current harvesting processing state; and at least two output parameters comprising at least two of the machine parameters. 3. The forage harvester of claim 1 , wherein the at least three parameters of the at least one multidimensional characteristic map comprise: at least two input parameters representing the current harvesting processing state; and at least three output parameters comprising the adjustable gap width, the adjustable rotational speed of one or both of the at least two rollers; and the adjustable differential rotational speed of the at least two rollers. 4. The forage harvester of claim 1 , further comprising at least one of: pre-pressing rollers with an adjustable rotational speed through which a chaff length of the harvested material is adjusted; a motor as a work assembly with an adjustable rotational speed for driving the forage harvester and for supplying energy to at least one other work assembly; an attachment as a work assembly for picking up the crop; a cutter head as a work assembly for chopping up the harvested material; a moisture sensor for determining harvested material moisture; or a throughput sensor for determining harvested material throughput; and wherein the multidimensional characteristic map is configured as one or more input parameters or one or more output parameters for one or more of the adjustable rotational speed of the pre-pressing rollers, the adjustable rotational speed of the motor, the harvested material moisture, or the harvested material throughput. 5. The forage harvester of claim 1 , wherein the input parameters comprise one or more of sensed harvested material parameters, chaff length, rotational speed of pre-pressing rollers, harvested material moisture, motor rotational speed, or harvested material throughput. 6. The forage harvester of claim 1 , wherein the multidimensional characteristic map further represents a relationship between a driving speed of the forage harvester and between one or both of an output per area of the forage harvester or energy consumption of the forage harvester and the machine parameters; wherein the driver assistance system is configured to perform multi-objective optimization with multiple objectives; wherein the multiple objectives are selected from processing quality, minimum energy consumption, maximum driving speed, or maximum output per area; and wherein the driver assistance system is configured to determine the at least one output parameter optimized based on the multi-objective optimization with the multiple objectives. 7. The forage harvester of claim 6 , wherein the driver assistance system is further configured to receive weighting from a user; and wherein the driver assistance system is configured to perform the multi-objective optimization by the weighting the multiple objectives. 8. The forage harvester of claim 7 , wherein the driver assistance system is further configured to output a graphic indicative of interplay between the multiple objectives; and wherein the driver assistance system is configured to receive the weighting from the user via user input to the graphic. 9. The forage harvester of claim 8 , wherein the driver assistance system, based on multi-objective optimization, is configured to output one or more suggestions to the user with respect to the multiple objectives along with the graphic indicative of the interplay between the multiple objectives. 10. The forage harvester of claim 9 , wherein the driver assistance system is further configured to output suggested weighting of the multiple objectives through which to better achieve the multiple objectives in the multi-objective optimization. 11. The forage harvester of claim 1 , wherein the multidimensional characteristic map has at least one two-dimensional characteristic; wherein at least some of the characteristics in the multidimensional characteristic map are based on measured relationships; wherein at least other the characteristics in the multidimensional characteristic map are based on theoretical relationships, wherein the harvesting process comprises a current harvesting process; and wherein at least some of the characteristics in the multidimensional characteristic map are based on relationships that a user has previously measured at a location relating to the current harvesting process. 12. The forage harvester of claim 1 , wherein the driver assistance system is further configured to: determine whether there is a specified deviation in one or more of harvested material throughput, motor rotational speed, harvested material moisture, or chaff length from values generated by an optimization model; and responsive to determining that there is the specified deviation, redetermine the at least one output parameter in a control routine of the driver assistance system and adjust it in the corn cracker during the harvesting process. 13. The forage harvester of claim 1 , wherein the driver assistance system is further configured to adapt the at least one multidimensional characteristic map to the current harvesting process state. 14. The forage harvester of claim 13 , wherein the driver assistance system is configured to adapt the at least one multidimensional characteristic map from at least one initial characteristic ma