Four-stroke internal combustion engine thereto related vehicle and method

The invention claimed is: 1. A four-stroke internal combustion engine comprising: a crankshaft; at least one cylinder arrangement forming a combustion chamber and comprising a cylinder bore, a piston arranged to reciprocate in the cylinder bore, a connecting rod connecting the piston to the crankshaft; an exhaust arrangement comprising an exhaust valve, an exhaust opening, and an exhaust valve head configured to seal against an exhaust valve seat of the exhaust opening; an intake arrangement comprising an intake valve and an intake opening, the intake valve comprising an intake valve head configured to seal against an intake valve seat of the intake opening; and at least one camshaft comprising: a first lobe configured to cause a first motion of the exhaust valve head, so as to open and close the exhaust opening, via a first linkage arrangement; a second lobe configured to cause a first motion of the intake valve head, so as to open and close the intake opening, via a second linkage arrangement, wherein the at least one camshaft is synchronized with the crankshaft to rotate at a same rotational speed as the crankshaft; a third lobe configured to cause a second motion of the exhaust valve head, so as to open and close the exhaust opening, via the first linkage arrangement; and a fourth lobe configured to cause a second motion of the intake valve head, so as to open and close the intake opening, via the second linkage arrangement, wherein the piston performs a four stroke operation in the cylinder bore, corresponding to an intake stroke, a compression stroke, a power stroke, and an exhaust stroke, wherein the first linkage arrangement is configured to change the first and second motions of the exhaust valve head by selectively switching between an activated lift and a deactivated lift of the exhaust valve head, wherein the second linkage arrangement is configured to change the first and second motions of the intake valve head by selectively switching between an activated lift and a deactivated lift of the intake valve head; and wherein the first linkage arrangement and the second linkage arrangement are controlled by a control unit. 2. The four-stroke internal combustion engine according to claim 1 , wherein the first linkage arrangement, during the activated lift of the exhaust valve head, is further configured to selectively reduce an open time duration of the exhaust valve head from a normal open time duration of the exhaust valve head, and wherein the second linkage arrangement, during the activated lift of the intake valve head, is further configured to selectively reduce an open time duration of the intake valve head from a normal open time duration-of the intake valve head. 3. The four-stroke internal combustion engine according to claim 1 , wherein the first linkage arrangement comprises a first hydraulic linkage arranged between the at least one camshaft and the exhaust valve head, and the second linkage arrangement comprises a second hydraulic linkage arranged between the at least one camshaft and the intake valve head, wherein, in a first state, the first hydraulic linkage switches to the activated lift of the exhaust valve head, wherein, in a second state, the first hydraulic linkage switches to the deactivated lift of the exhaust valve head, wherein, in a first state, the second hydraulic linkage switches to the activated lift of the intake valve head, wherein, in a second state, the second hydraulic linkage switches to the deactivated lift of the intake valve head, and wherein the first and second states of the first and second hydraulic linkages are controlled by the control unit. 4. The four-stroke internal combustion engine according to claim 1 , wherein the first linkage arrangement comprises a first mechanical linkage arranged between the at least one camshaft and the exhaust valve head, and the second linkage arrangement comprises a second mechanical linkage arranged between the at least one camshaft and the intake valve head, wherein, in a first state, the first mechanical linkage switches to the activated lift of the exhaust valve head, wherein, in a second state, the first mechanical linkage switches to the deactivated lift of the exhaust valve head, wherein, in a first state, the second mechanical linkage switches to the activated lift of the intake valve head, wherein, in a second state, the second mechanical linkage switches to the deactivated lift of the intake valve head, and wherein the first and second states of the first and second mechanical linkages are controlled by the control unit. 5. The four-stroke internal combustion engine according to claim 1 , wherein the control unit in an engine running mode is configured to: switch the first linkage arrangement to the deactivated lift of the exhaust valve head at every alternate rotation of the at least one camshaft such that the exhaust opening remains closed during the compression stroke, and switch the second linkage arrangement to the deactivated lift of the intake valve head at every alternate rotation of the at least one camshaft such that the intake opening remains closed during the power stroke. 6. The four-stroke internal combustion engine according to claim 5 , wherein the control unit in the engine running mode is further configured to: switch the first linkage arrangement to the deactivated lift of the exhaust valve head at every rotation of the at least one camshaft such that the exhaust opening remains closed during the intake stroke and the power stroke, and switch the second linkage arrangement to the deactivated lift of the intake valve head at every rotation of the at least one camshaft such that the intake opening remains closed during the compression stroke and the exhaust stroke. 7. The four-stroke internal combustion engine according to claim 1 , wherein the control unit in an engine braking mode is configured to: switch the first linkage arrangement to the deactivated lift of the exhaust valve head at every rotation or every alternate rotation of the at least one camshaft such that the exhaust opening remains closed during the compression stroke and/or during the exhaust stroke. 8. The four-stroke internal combustion engine according to claim 7 , wherein the control unit in the engine braking mode is further configured to: switch the first linkage arrangement to the deactivated lift of the exhaust valve head at every rotation of the at least one camshaft such that the exhaust opening remains closed during the intake stroke and the power stroke, and switch the second linkage arrangement to the deactivated lift of the intake valve head at every rotation of the at least one camshaft such that the intake opening remains closed during the compression stroke and the exhaust stroke. 9. The four-stroke internal combustion engine according to claim 1 , wherein the control unit in a first zero flow mode is configured to: open the exhaust opening and the intake opening during the intake stroke, the compression stroke, the power stroke, and the exhaust stroke. 10. The four-stroke internal combustion engine according to claim 1 , wherein the control unit in a second zero flow mode is configured to: switch the first linkage arrangement to the deactivated lift of the exhaust valve head during consecutive first and second strokes of the four stroke operation such that the exhaust opening remains closed during the consecutive first and second strokes, and switch the second linkage arrangement to the deactivated lift of the intake valve head during consecutive third and fourth strokes of the four stroke operation such that the intake opening remains closed during the consecutive third and four