Active vibration absorption system and method for absorbing vibration of a vibrating element in a motor vehicle

The invention claimed is: 1. An active vibration absorption system, comprising: a control device; a vibrating element; an electrical coil; and a structure-borne sound exciter, wherein the structure-borne sound exciter comprises a coupling element for coupling to the vibrating element, and the structure-borne sound exciter is configured to: detect an induced voltage in the electrical coil, and provide a measurement signal correlated with the detected induced voltage, wherein the coupling element is configured to: vibrate when the vibrating element is vibrating, induce an electromagnetic current in the electrical coil by a motion, and move in response to a flow of an electrical current in the electrical coil, and wherein the control device is configured to: receive the measurement signal, identify a first target strength of the electrical current corresponding to the measurement signal to adjust a movement of the coupling element, identify a detection component and a control component from the measurement signal, identify a second target strength of the electrical current corresponding to the detection component, and control an actual strength of the electrical current to meet the first target strength of the electrical current, wherein the detection component corresponds to a voltage induced by the vibrating element, wherein the control component is produced by the flow of the electric current in the electrical coil, and wherein an adjustment of the movement of the coupling element absorbs vibrations of the vibrating element. 2. The active vibration absorption system of claim 1 , wherein the control device is further configured to identify the detection component and the control component simultaneously for an identical signal value in the measurement signal. 3. The active vibration absorption system of claim 1 , wherein the control device is further configured to identify the detection component and the control component using predetermined transfer functions. 4. The active vibration absorption system of claim 1 , wherein the control device is further configured to identify the second target strength of the electrical current required to adjust a movement of the vibrating element. 5. The active vibration absorption system of claim 1 , wherein the structure-borne sound exciter is further configured to measure the induced voltage in the electrical coil at at least one predefined point in time, and wherein the control device is further configured to control the actual strength of the electrical current at the at least one predefined point in time. 6. The active vibration absorption system of claim 1 , wherein the control device is further configured to receive at least one measurement signal from the structure-borne sound exciter; and to control an actual strength of an electrical current for the first structure-borne sound exciter and an actual strength of an electrical current for a second structure-borne sound exciter. 7. The active vibration absorption system of claim 1 , wherein the electrical coil is configured as a voice coil. 8. The active vibration absorption system of claim 1 , wherein the structure-borne sound exciter is configured as a sound actuator. 9. A motor vehicle, comprising: an active vibration absorption system, comprising: a control device; a vibrating element; an electrical coil; and a structure-borne sound exciter, wherein the vibrating element is a sheet metal part of the motor vehicle, wherein the structure-borne sound exciter comprises a coupling element for coupling the structure-borne sound exciter to the vibrating element, and the structure-borne sound exciter is configured to: detect an induced voltage in the electrical coil, and provide a measurement signal correlated with the detected induced voltage, wherein the coupling element is configured to: vibrate when the vibrating element is vibrating, induce an electromagnetic current in the electrical coil by a motion, and move in response to a flow of an electrical current in the electrical coil, and wherein the control device is configured to: receive the measurement signal, identify a first target strength of the electrical current corresponding to the measurement signal to adjust a movement of the coupling element, identify a detection component and a control component from the measurement signal, identify a second target strength of the electrical current corresponding to the detection component, and control an actual strength of the electrical current to meet the first target strength of the electrical current, wherein the detection component corresponds to a voltage induced by the vibrating element, wherein the control component is produced by the flow of the electrical current in the electrical coil, and wherein the first target strength of the electrical current is set to cause the coupling element to move. 10. The motor vehicle of claim 9 , wherein the sheet metal part of the motor vehicle is one or more of a roof, an engine hood, and a tailgate of the motor vehicle. 11. A method for absorbing vibration by a system comprising: a structure-borne sound exciter, a vibrating element and a coupling element, the method comprising: detecting an induced voltage in an electrical coil of the structure-borne sound exciter, wherein the structure-borne sound exciter is coupled to the vibrating element via the coupling element, wherein the coupling element is configured to: vibrate by a vibration of the vibrating element, move in response to a flow of an electrical current in the electrical coil, and induce an electromagnetic current in the electrical coil in response to the movement of the coupling element; and wherein the method further comprises: providing a measurement signal correlated with the detected induced voltage at the structure-borne sound exciter; identifying a first target strength of the electrical current corresponding to the measurement signal; and controlling an actual strength of the electrical current to meet the first target strength of the electrical current, wherein the first target strength of the electrical current causes the coupling element to move, thereby absorbing vibrations of the vibrating element. 12. The method of claim 11 , further comprising: identifying a detection component and a control component from the measurement signal, wherein the detection component corresponds to the voltage induced by the vibrating element, and wherein the control component is produced by applying an electrical current to the electrical coil. 13. The method of claim 12 , further comprising identifying a second target strength of the electrical current as a function of the detection component to adjust a movement of the vibrating element.