Method for operating a combustion engine in order to prevent excessive switching between at least two modes of operation

The invention claimed is: 1. A method for operating a combustion engine of a motor vehicle, said engine having multiple cylinders and a partial engine operation torque, said engine and said vehicle having defined parameters, a target torque set at the engine, and an engine controller having a switching variable, said controller being configured to selectively operate the engine in a full engine operation and in a partial engine operation, with all of the cylinders being operated in the full engine operation and at least one of the cylinders being deactivated in the partial engine operation, said method comprising: determining an acceleration reserve as a function of at least one defined parameter; defining a minimum acceleration reserve; determining a recommended value as a function of the acceleration reserve and the minimum acceleration reserve; setting the switching variable when the recommended value exceeds a threshold value; and switching from the full engine operation to the partial engine operation only when: a) a partial engine operation torque producible by the combustion engine in the partial engine operation is greater than or at least equal to a target torque set on the combustion engine and b) the switching variable is set. 2. The method of claim 1 , wherein the setting of the switching variable is determined in defined time intervals during the operation of the combustion engine. 3. The method of claim 1 , wherein the at least one defined parameter is selected from a group consisting of a speed of the motor vehicle, a longitudinal acceleration of the motor vehicle, a currently selected gear, an incline of the ground underneath the motor vehicle, an elevation of the motor vehicle above sea level and a driving resistance of the motor vehicle. 4. The method of claim 1 , wherein the switching variable is exclusively set after the expiration of at least one waiting period determined as a function of at least one defined parameter. 5. The method of claim 4 , wherein the at least one waiting period comprises multiple waiting periods and wherein the switching variable is only set after expiration of all the multiple waiting periods. 6. The method of claim 1 , further comprising switching from the partial motor operation to the full motor operation when the partial engine operation torque providable by the combustion engine in the partial engine operation is smaller than the target torque set at the combustion engine. 7. A combustion engine of a motor vehicle, said engine having a partial engine operation torque and said vehicle having defined parameters and a target torque set at the engine, comprising: multiple cylinders in the engine; and an engine controller, said controller having a switching variable, said controller being configured to selectively operate all of the multiple cylinders in a full engine operation and to switch at least one of the cylinders off so as operate in a partial engine operation, the controller being configured to: determine an acceleration reserve from at least one defined parameter, define a minimum acceleration reserve, determine a recommended value as a function of the acceleration reserve and the minimum acceleration reserve, and switch from the full engine operation to the partial engine operation only when: a) a partial engine operation torque producible by the combustion engine in the partial engine operation is greater than or at least equal to a target torque set on the combustion engine, and b) the switching variable is set, said switching variable being set when the recommended value exceeds a threshold value. 8. The combustion engine of claim 7 , further comprising multiple assessment modules that independently determine at least one waiting period and/or at least one recommended value as a function of at least one defined parameter. 9. The combustion engine claim 7 , further comprising a decision module in communication with at least one assessment module, said decision module being configured to determine the setting of the switching variable using at least one recommended value and/or the value of at least one waiting period after a partial engine operation torque that is producible in the partial engine operation of the combustion engine becomes greater than or equal to a target torque set on the combustion engine, said at least one value being provided by at least one assessment module to the decision module. 10. The combustion engine of claim 7 , wherein the setting of switching variable is determined by the decision module in defined time intervals during the operation of the combustion engine. 11. The combustion engine of claim 7 , wherein the at least one defined parameter is selected from a group consisting of a speed of the motor vehicle, a longitudinal acceleration of the motor vehicle, a currently selected gear, an incline of the ground underneath the motor vehicle, an elevation of the motor vehicle above sea level and a driving resistance of the motor vehicle. 12. The combustion engine of claim 9 , wherein the switching variable is exclusively set by the decision module after the expiration of at least one waiting period determined by at least one assessment module as a function of at least one defined parameter. 13. The combustion engine of claim 12 , wherein a waiting period is a period of time waited after a partial engine operation torque that is producible in the partial engine operation of the combustion engine is greater than or equal to a target torque set on the combustion engine. 14. The combustion engine of claim 10 , wherein multiple recommended values are provided to the decision module and the recommended value used by the decision module to determine the setting of the switching variable is a mean or weighted overall recommended value of the multiple recommended values. 15. The combustion engine of claim 12 , wherein the at least one waiting period comprises multiple waiting periods and wherein the switching variable is only set by the decision module after expiration of all the multiple waiting periods. 16. The combustion engine of claim 7 , wherein the controller switches the combustion engine from the partial motor operation to the full motor operation when the partial engine operation torque providable by the combustion engine in the partial engine operation is smaller than the target torque set at the combustion engine. 17. The combustion engine of claim 12 , wherein the at least one waiting period comprises multiple waiting periods and wherein the switching variable is only set after expiration of the longest of the multiple waiting periods. 18. The method of claim 4 , wherein a waiting period is a period of time waited after a partial engine operation torque that is producible in the partial engine operation of the combustion engine is greater than or equal to a target torque set on the combustion engine. 19. The method of claim 1 , wherein multiple recommended values are determined and the recommended value used to determine the setting of the switching variable is a mean or weighted overall recommended value of the multiple recommended values. 20. The method of claim 1 , wherein the recommended value is determined from a statistical steering angle variable determined at defined points in time that is a member of a group comprised of a variance of the steering angle, a variance-type function of the steering angle, or a mean value of the steering angle, that is determined over a period of time, that is compared to a steering angle thresh