Monitoring system for controlling the position of an implement for an agricultural vehicle while taking the vehicle dynamics into account

The invention claimed is: 1. An arrangement for controlling a position of an implement mounted on an agricultural vehicle that can move in a forward direction across a field by tires or tracks that engage with the ground, the arrangement comprising: a control unit that is connected in a signal-transmitting manner to an actuator arranged for adjusting the position of the implement relative to the vehicle; a ground profile determining device, which is connected to the control unit and is designed to determine or to store a ground profile in front of the vehicle in an area of the ground to be driven over by the vehicle in the future; where the control unit is programmed to determine an expected vertical movement of the vehicle due to the ground profile and to prospectively transmit to the actuator a control signal, consistent with a reaction time of the actuator, that is dimensioned such that the implement is continuously guided in a predeterminable position above the ground profile; and where the control device is programmed to take into account, when determining the expected vertical movement of the vehicle because of the ground profile, an expected deformation of the ground profile due to a ground engagement means and an expected vertical movement of the vehicle relative to the ground profile because of movement induced in the tires or a suspension of the vehicle by the ground profile; where the ground engagement means comprises tires or tracks. 2. The arrangement according to claim 1 , wherein the expected vertical relative movement of the vehicle relative to the ground profile while traveling over an uneven spot of ground is an oscillation caused by tire deformation or spring travel between the ground engagement of the tires or tracks and the vehicle, and wherein the control device is programmed to apply a compensating control signal, in opposite phase to the oscillation, to the actuator. 3. The arrangement according to claim 1 , wherein the control unit is programmed to use a model of the ground or the vehicle to determine the control signal, the model representing the dynamic behavior of the vehicle while traveling on uneven spots of ground. 4. The arrangement according to claim 3 , wherein a load state of the vehicle that is detected by a sensor or calculated enters into the model. 5. The arrangement according to claim 3 , wherein the control unit is connected to an actual value sensor for detecting a height of the implement above the ground and is programmed to adapt the model in a self-learning manner to the respective conditions, on the basis of the signals of the actual value sensor. 6. The arrangement according to claim 1 wherein the control unit is connected to a sensor for detecting the expected vertical movement or acceleration of the vehicle and is operated to take the signal of the sensor into account when determining the control signal. 7. The arrangement according to claim 1 wherein a speed signal or speed change signal is fed to the control unit, and the control unit is programmed to take the speed signal or speed change signal into account when determining the control signal. 8. The arrangement according to claim 1 wherein the ground profile determining device comprises a ground sensor or a topographical map stored in a memory, where the ground sensor operates without contact or mechanically interacting with the ground. 9. The arrangement according to claim 1 wherein the ground profile determining device comprises a memory for storing the ground profile as a topographical map. 10. The arrangement according to claim 9 further comprising: a position determining device that provides a position of the vehicle to support reference to the stored topographical map. 11. The harvesting machine according to claim 1 , wherein the expected vertical movement of the vehicle relative to the ground profile while traveling over an uneven spot of ground is an oscillation caused by tire deformation or spring travel between the ground engagement of the tires or tracks and the vehicle, and wherein the control device is programmed to apply a compensating control signal, in opposite phase to the oscillation, to the actuator. 12. A harvesting machine having an implement, particularly a harvester head, the harvesting machine comprising: a control unit that is connected in a signal-transmitting manner to an actuator arranged for adjusting the position of the implement relative to the harvesting machine; a ground profile determining device, which is connected to the control unit and is designed to determine or to store a ground profile in front of the harvesting machine in an area of the ground to be driven over by the harvesting machine in the future; where the control unit is programmed to determine an expected vertical movement of the harvesting machine because of the ground profile and to prospectively transmit to the actuator a control signal, consistent with a reaction time of the actuator, that is dimensioned such that the implement is continuously guided in a predeterminable position above the ground profile; and where the control device is programmed to take into account, when determining the expected vertical movement of the harvesting machine due to the ground profile, an expected deformation of the ground profile due to a ground engagement means and an expected vertical movement of the harvesting machine relative to the ground profile due to movement induced in the tires or a suspension of the harvesting machine by the ground profile. 13. The harvesting machine according to claim 12 wherein the ground profile determining device comprises a memory for storing the ground profile as a topographical map. 14. The harvesting machine according to claim 13 further comprising: a position determining device that provides a position of the vehicle to support reference to the stored topographical map. 15. A method for controlling the position of an implement mounted on an agricultural vehicle that can move in a forward direction across a field by tires or tracks that engage with the ground, the method comprising: by a control unit that is connected in a signal-transmitting manner to an actuator, adjusting a position of the implement relative to the vehicle; and by a ground profile determining device, which is connected to the control unit, for determining or storing a ground profile in front of the vehicle; by the control unit, determining an expected vertical movement of the vehicle because of the ground profile and prospectively transmitting to the actuator a control signal, consistent with a reaction time of the actuator, that is dimensioned such that the implement is continuously guided in a predeterminable position above the ground profile, when determining the expected vertical movement of the vehicle because of the ground profile, taking into account an expected deformation of the ground profile because of a ground engagement means and an expected vertical movement of the vehicle relative to the ground profile due to movement induced in the tires or a suspension of the vehicle by the ground profile.