Abstract: A global system model equation including model equations, which contain parameters, of individual components that form the global system. The parameters of the individual components are detected using sensor values from the sensors that are allocated to the individual components and it is determined whether it is possible to adapt the parameters to the sensor values and to solve the global system model equation.

Abstract: A method establishes a global system model equation including model equations, which contain parameters, of individual components that form the global system. According to said method, the parameters of the individual components are detected using sensor values from the sensors that are allocated to the individual components and it is determined whether it is determined whether it is possible to adapt the parameters to the sensor values and to solve the global system model equation.

Abstract: The inventive system is used to design a technical system, which is characterized by condition variables and by diagnostic variables. A measurement field comprising first measured variables is incorporated into the design of the technical system, said first measured variables being measured with a predetermined accuracy. In addition, second measured variables can be measured with a predetermined accuracy. According to the inventive method, sensitivity variables are determined for the first measured variables. To determine said sensitivity variables, the extent to which a modification of the measurement accuracy of the first measured variables influences at least one parameter is calculated and to determine the second sensitivity variables, the extent to which the measurement of the second measured variables influences at least one parameter is calculated.

Abstract: The inventive system is used to design a technical system, which is characterised by condition variables and by diagnostic variables. A measurement field comprising first measured variables is incorporated into the design of the technical system, said first measured variables being measured with a predetermined accuracy. In addition, second measured variables can be measured with a predetermined accuracy. According to the inventive method, sensitivity variables are determined for the first measured variables. To determine said sensitivity variables, the extent to which a modification of the measurement accuracy of the first measured variables influences at least one parameter is calculated and to determine the second sensitivity variables, the extent to which the measurement of the second measured variables influences at least one parameter is calculated.

Abstract: A navigation method involves a processor selecting at least one destination from a stipulated destination category containing a plurality of destinations (P1; P2; P3; P4) and calculating a route to the destination. In the event of a change in the location (V1; V2), the processor checks whether a new destination (P1; P2; P3; P4) from the stipulated destination category is closer to the changed location. If the new destination is closer to the changed location, a route is calculated from the changed location to the new destination and is output to a user. In this way, dynamic, automatically changeable destination selection is performed which takes into account the actual course of a journey route.