Method for operating an injection valve

What is claimed is: 1. A method for operating an injection valve having a nozzle-needle driven by a piezoelectric actuator, the method comprising: capturing an ACTUAL quantity of a characteristic comprising at least one of the group consisting of: actuator current, actuator charge, and actuator voltage continuously during an injection process; reconstructing a dynamic progression of the nozzle-needle stroke of the injection valve on the basis of a model structure for a motion of the nozzle needle of the injection valve, ascertaining a DESIRED quantity corresponding to the ACTUAL quantity captured, wherein the dynamic progression of the nozzle-needle stroke is reconstructed via a simplified model structure by introduction of at least one discrete measured value pertaining to the injection valve into a basic model of the nozzle-needle motion, the at least one discrete measured value including an internal variable of state chosen from the group consisting of: piezoelectric inertia forces, piezoelectric speeds, needle inertia forces, and needle speeds; comparing the DESIRED quantities with the ACTUAL quantities; and minimizing the difference between the DESIRED quantities and the ACTUAL quantities. 2. The method as claimed in claim 1 , wherein the at least one discrete measured value includes an opening time or a closing time of the nozzle-needle. 3. The method as claimed in claim 1 , further comprising determining at least one of actuator speed or the actuator travel. 4. The method as claimed in claim 1 , wherein minimizing the difference between the DESIRED quantities and ACTUAL quantities is carried out via an optimization algorithm. 5. The method as claimed in claim 1 , wherein the nozzle needle is driven directly by the piezoelectric actuator. 6. A fuel injector for an internal combustion engine, the fuel injector comprising: a nozzle-needle allowing fuel to flow into a combustion chamber of the internal combustion engine when the nozzle-needle is in an open position; a piezoelectric actuator driving the nozzle-needle; a sensor capturing at least one ACTUAL quantity comprising at least one quantity selected from the group consisting of actuator current, actuator charge, and actuator voltage continuously during an injection process; a processor reconstructing a dynamic progression of the nozzle-needle stroke of an injection valve on the basis of a model structure for a motion of the nozzle needle of the injection valve, ascertaining DESIRED quantities corresponding to the at least one ACTUAL quantity, comparing the DESIRED quantities with the ACTUAL quantities; and minimizing the difference between the DESIRED quantities and the ACTUAL quantities; wherein the dynamic progression of the nozzle-needle stroke is reconstructed via a simplified model structure by introduction of at least one discrete measured value pertaining to the injection valve into a basic model of the nozzle-needle motion, the at least one discrete measured value including an internal variable of state chosen from the group consisting of: piezoelectric inertia forces, piezoelectric speeds, needle inertia forces, and needle speeds.