Method for operating a vehicle based on one or more setpoint trajectories

What is claimed is: 1. A method for operating a vehicle, comprising: ascertaining, at a first point in time, a first setpoint trajectory, and controlling an actual trajectory of the vehicle based on the first setpoint trajectory; determining, at a second point in time subsequent to the first point in time, a remaining setpoint trajectory which corresponds to the first setpoint trajectory minus a section of the first setpoint trajectory already used for controlling the actual trajectory at the second point, a driving corridor being established at the second point in time, the driving corridor having a predetermined length, the first setpoint trajectory being described with the aid of an analytical function, so that the remaining setpoint trajectory is extended based on the analytical function up to a lengthwise end of the driving corridor; checking, at the second point in time, whether or not the extended remaining setpoint trajectory of the vehicle is completely within the driving corridor; and continuing to control the actual trajectory of the vehicle based on the extended remaining setpoint trajectory based on results of the checking step. 2. The method as recited in claim 1 , wherein the remaining setpoint trajectory is a trajectory from a position of the vehicle at or after the second point in time. 3. The method as recited in claim 1 , wherein the control of the actual trajectory includes at least one of a longitudinal control of a vehicle movement, and a lateral control of the vehicle movement. 4. The method as recited in claim 3 , wherein to control an actual distance between the vehicle and a preceding vehicle to a setpoint distance between the vehicle and the preceding vehicle, the first setpoint trajectory is used for longitudinal control of the vehicle movement depending on a deviation of the actual distance from the setpoint distance. 5. A computer program product having program code stored on a non-transitory machine-readable storage medium, the program code for operating a vehicle, the program code, when executed by a processing device, causing the processing device to perform: ascertaining, at a first point in time, a first setpoint trajectory, and controlling an actual trajectory of the vehicle based on the first setpoint trajectory; determining, at a second point in time subsequent to the first point in time, a remaining setpoint trajectory which corresponds to the first setpoint trajectory minus a section of the first setpoint trajectory already used for controlling the actual trajectory at the second point, a driving corridor being established at the second point in time, the driving corridor having a predetermined length, the first setpoint trajectory being described with the aid of an analytical function, so that the first remaining setpoint trajectory is extended based on the analytical function up to a lengthwise end of the driving corridor; checking, at the second point in time, whether or not the extended remaining setpoint trajectory of the vehicle is completely within the driving corridor; continuing to control the actual trajectory of the vehicle based on the extended remaining setpoint trajectory if the extended remaining trajectory is completely within the driving corridor; and ascertaining a second setpoint trajectory and controlling the actual trajectory of the vehicle based on the second setpoint trajectory if the extended remaining trajectory is not completely within the driving corridor. 6. A driver assistance system for a vehicle, comprising: a processing device configured to: ascertain, at a first point in time, a first setpoint trajectory, and control an actual trajectory of the vehicle based on the first setpoint trajectory; determine, at a second point in time subsequent to the first point in time, a remaining setpoint trajectory which corresponds to the first setpoint trajectory minus a section of the first setpoint trajectory already used for controlling the actual trajectory at the second point, a driving corridor being established at the second point in time, the driving corridor having a predetermined length, the first setpoint trajectory being described with the aid of an analytical function, so that the first remaining setpoint trajectory is extended based on the analytical function up to a lengthwise end of the driving corridor; check, at the second point in time, whether or not the extended remaining trajectory of the vehicle is completely within the driving corridor; continue to control the actual trajectory of the vehicle based on the extended remaining setpoint trajectory if the extended remaining setpoint trajectory is completely within the driving corridor; and ascertain a second setpoint trajectory and control the actual trajectory of the vehicle based on the second setpoint trajectory if the extended remaining setpoint trajectory is not completely within the driving corridor. 7. The driver assistance system as recited in claim 6 , wherein the driver assistance system is a traffic-jam assistance system.