High and low pressure EGR with a common valve housing

What is claimed is: 1. An air ducting device for air ducting of an internal combustion engine in a motor vehicle having a turbocharger arranged between an exhaust gas line for the expansion of exhaust gas exiting the internal combustion engine and an intake line for compression of intake air to be delivered to the internal combustion engine, the air ducting device comprising: a housing; a high pressure flow pathway with a first valve, the high pressure flow pathway branching the intake line downstream from a compressor side of the turbocharger in a flow direction of the intake air to the exhaust gas line between the internal combustion engine and upstream from a turbine side of the turbocharger in a flow direction of the exhaust gas; a low pressure flow pathway with a second valve, the low pressure flow pathway branching from the exhaust gas line downstream from the turbine side of the turbocharger in the flow direction of the exhaust gas to the intake line upstream of the compressor side of the turbocharger in the flow direction of the intake air; a first flow pathway of the low pressure flow pathway branching the intake line upstream of the compressor side of the turbocharger in the flow direction of the intake air to a mouth region of the first flow pathway; a second flow pathway of the high pressure flow pathway having a third valve and extending from the first valve to the mouth region of the first flow pathway; a third flow pathway of the low pressure flow pathway having a fourth valve and extending from the second valve to the mouth region of the first flow pathway, the second flow pathway and the third flow pathway merging in the mouth region of the first flow pathway; and an exhaust gas heat exchanger, wherein at least a portion of each of the high pressure flow pathway, the low pressure flow pathway, the first flow pathway, the second flow pathway, the third flow pathway, and the exhaust gas heat exchanger is integrated within the housing. 2. The air ducting device according to claim 1 , wherein a portion of the housing is formed as a continuous one-piece component. 3. The air ducting device according to claim 2 , wherein at least one of the first valve, the second valve, the third valve, and the fourth valve is integrated within the housing. 4. The air ducting device according to claim 1 , wherein the exhaust gas heat exchanger is arranged between and fluidly couples the second flow pathway to the third flow pathway. 5. The air ducting device according to Claim 1 , wherein the exhaust gas heat exchanger is arranged between and fluidly couples the high pressure flow pathway to the low pressure flow pathway. 6. The air ducting device according to claim 1 , wherein the high pressure flow pathway and the low pressure flow pathway merge at a merge region and each of the second flow pathway and the third flow pathway extends away from the merge region, and wherein the exhaust gas heat exchanger is arranged in the third flow pathway. 7. The air ducting device according to claim 1 , wherein a fourth flow pathway branches from the intake line downstream from the compressor side of the turbocharger in the direction of flow of the intake air and extends to the mouth region of the first flow pathway, the fourth flow pathway including a fifth valve and the first flow pathway including a sixth valve. 8. The air ducting device according to claim 7 , wherein each of the fifth valve and the sixth valve is integrated within the housing. 9. The air ducting device according to claim 1 , wherein the first valve and the second valve are configured for simultaneous and joint actuation by a first actuator. 10. The air ducting device according to claim 9 , wherein the third valve and the fourth valve are configured for simultaneous and joint actuation by a second actuator. 11. A method of operating a system for air ducting of an internal combustion engine in a motor vehicle, the system comprising a turbocharger arranged between an exhaust gas line for the expansion of exhaust gas exiting the internal combustion engine and an intake line for compression of intake air to be delivered to the internal combustion engine; the method comprising the steps of: providing an air ducting device comprising: a housing, a high pressure flow pathway with a first valve, the high pressure flow pathway branching from the exhaust gas line downstream from the internal combustion engine and upstream from a turbine side of the turbocharger in a flow direction of the exhaust gas to the intake line downstream from a compressor side of the turbocharger and upstream from the internal combustion engine in a flow direction of the intake air; a low pressure flow pathway with a second valve, the low pressure flow pathway branching from the exhaust gas line downstream from the turbine side of the turbocharger in the flow direction of the exhaust gas to the intake line upstream from the compressor side of the turbocharger in the flow direction of the intake air; a first flow pathway of the low pressure flow pathway having a third valve and branching from the intake line upstream of the compressor side of the turbocharger in the flow direction of the intake air to a mouth region of the first flow pathway; a second flow pathway of the high pressure flow pathway having a fourth valve and a third flow pathway of the low pressure flow pathway having a fifth valve, the second flow pathway extending from the first valve to the mouth region of the first flow pathway, the third flow pathway extending from the second valve to the mouth region of the first flow pathway, the second flow pathway and the third flow pathway merging together in the mouth region of the first flow pathway; a fourth flow pathway having a sixth valve and branching from the intake line downstream from the compressor side of the turbocharger in the direction of flow of the intake air and extending to the mouth region of the first flow pathway; an exhaust gas heat exchanger, wherein at least a portion of each of the high pressure flow pathway, the low pressure flow pathway, the first flow pathway, the second flow pathway, the third flow pathway, the fourth flow pathway, and the exhaust gas heat exchanger is integrated within the housing; and adjusting at least one of the first valve, the second valve, the third valve, the fourth valve, the fifth valve, and the sixth valve between an open position and a closed position to change an operational mode of the air ducting device. 12. The method according to claim 11 , wherein the exhaust gas line includes an exhaust high pressure region extending from the internal combustion engine to the turbine side of the turbocharger and an exhaust low pressure region formed downstream from the turbine side of the turbocharger in the direction of flow of the exhaust gas and the intake line includes an intake high pressure region extending from the compressor side of the turbocharger to the internal combustion engine and an intake low pressure region formed upstream from the compressor side of the turbocharger in the direction of flow of the intake air. 13. The method according to claim 12 , wherein the air ducting device is configured to be operational in each of the following operational modes: removal of the exhaust gas from the exhaust high pressure region and supplying of the exhaust gas to the intake low pressure region with cooling of the exhaust gas by the exhaust gas heat exchanger during a first operational mode; removal of the exhaust gas from the exhaust high pressure region and supplying of the exhaust gas to the intake low pressure region without cooling of the exhaust gas by the exhaust gas