Ventilation control unit and ventilation control system

What is claimed is: 1. A ventilation control unit for regulating a gas flow within a ventilation system with a ventilation circuit and with an external gas flow source connected to the ventilation circuit, the ventilation control unit comprising: a reception module comprising a signal interface configured to repeatedly receive an inspiratory flow signal and an expiratory flow signal, wherein the inspiratory flow signal indicates a current inspiratory gas flow and the expiratory flow signal indicates a current expiratory gas flow; a first calculation module configured to calculate a leak flow based on a difference between the current inspiratory gas flow and the current expiratory gas flow, with the external gas flow source separated from the ventilation circuit of the ventilation system, and wherein the first calculation module is further configured to output a leak signal, which indicates the calculated leak flow, the calculated leak flow corresponding to a loss of fluid in the ventilation circuit; a second calculation module configured to receive the leak signal and to calculate an external gas flow with receipt of the leak signal, with a connection of the external gas flow source to the ventilation circuit of the ventilation system, based on the calculated leak flow and based on a difference between an updated current inspiratory gas flow and an updated current expiratory gas flow; an output module configured to output an output signal, which is based on the calculated external gas flow; and a regulating module configured to receive the output signal and to trigger a regulation of an inspiratory gas flow based on the calculated external gas flow. 2. A ventilation control unit in accordance with claim 1 , wherein the ventilation control unit is configured to be connected to the external gas flow source, the external gas flow source comprising an atomizer. 3. A ventilation control unit in accordance with claim 1 , wherein the leak flow and/or the external gas flow are determined based on a plurality of inspiratory and expiratory gas flows of a corresponding plurality of breaths of a person connected to the ventilation system. 4. A ventilation control unit in accordance with claim 1 , which is configured to calculate the leak flow based on the calculated external gas flow and based on the difference between the current inspiratory gas flow and the current expiratory gas flow. 5. A ventilation control unit in accordance with claim 1 , further comprising an additional calculation module configured to calculate a patient gas flow fed to the patient based on the calculated external gas flow, based on the calculated leak flow and based on the difference between the current inspiratory gas flow and the current expiratory gas flow, wherein the output signal outputted by the output module indicates the patient gas flow. 6. A ventilation system comprising: a ventilation circuit; an external gas flow source; and a ventilation control unit comprising: a reception module comprising a signal interface configured to repeatedly receive an inspiratory flow signal and an expiratory flow signal, wherein the inspiratory flow signal indicates a current inspiratory gas flow and the expiratory flow signal indicates a current expiratory gas flow; a first calculation module configured to calculate a leak flow based on a difference between the current inspiratory gas flow and the current expiratory gas flow, with the external gas flow source separated from the ventilation circuit, and wherein the first calculation module is further configured to output a leak signal, which indicates the calculated leak flow, the calculated leak flow corresponding to a loss of fluid in the ventilation circuit; a second calculation module configured to receive the leak signal and to calculate an external gas flow with receipt of the leak signal, with a connection of the external gas flow source to the ventilation circuit, based on the calculated leak flow and based on a difference between an updated current inspiratory gas flow and an updated current expiratory gas flow; and an output module configured to output an output signal, which is based on the calculated external gas flow. 7. A ventilation system in accordance with claim 6 , further comprising a control module for control of the external gas flow source, wherein the control module is configured to maintain the external gas flow source separated from the ventilation circuit prior to the reception of the leak signal provided by the first calculation module and to trigger a connection of the external gas flow source to the ventilation circuit with a reception of the leak signal. 8. A ventilation system in accordance with claim 6 , wherein the ventilation control unit further comprises a regulating module configured to receive the output signal and to trigger a regulation of an inspiratory gas flow based on the calculated external gas flow. 9. A ventilation system in accordance with claim 6 , wherein the external gas flow source comprises an atomizer. 10. A ventilation system in accordance with claim 6 , wherein the leak flow and/or the external gas flow are determined based on a plurality of inspiratory and expiratory gas flows of a corresponding plurality of breaths of a person connected to the ventilation system. 11. A ventilation system in accordance with claim 6 , which is configured to calculate the leak flow based on the calculated external gas flow and based on the difference between the current inspiratory gas flow and the current expiratory gas flow. 12. A ventilation system in accordance with claim 6 , wherein the ventilation control unit further comprises an additional calculation module configured to calculate a patient gas flow fed to the patient based on the calculated external gas flow, based on the calculated leak flow and based on the difference between the current inspiratory gas flow and the current expiratory gas flow, wherein the output signal outputted by the output module indicates the patient gas flow. 13. A process for regulating a gas flow within a ventilation system with a ventilation circuit with an external gas flow source, the process comprising the steps of: receiving a first inhalation signal, which indicates a current inspiratory gas flow, and receiving a first exhalation signal, which indicates a current expiratory gas flow; calculating a leak flow based on a difference between the current inspiratory gas flow and the current expiratory gas flow with the external gas flow source separated from the ventilation circuit of the ventilation system; outputting a leak signal, which indicates the determined leak flow; receiving a second exhalation signal, which indicates a current expiratory gas flow after the calculation of the leak flow; calculating an external gas flow after receiving the leak signal, with a connection of the external gas flow source to the ventilation circuit of the ventilation system, based on the calculated leak flow and based on the difference between an updated current inspiratory gas flow and an updated current expiratory gas flow, the calculated leak flow corresponding to a loss of fluid in the ventilation circuit; and outputting an output signal, which is based on the calculated external gas flow. 14. A process in accordance with claim 13 , wherein the step of outputting an output signal comprises a regulation of an inspiratory gas flow based on the calculated external gas flow. 15. A process in accordance with claim 14 , wherein the inspiratory gas flow is regulated, furthermore, based on the calculated leak flow. 16. A pro