The model equivalent to conduct of measurements within the river basin is the retrieval of so-called [[#systemzustand|system states]] of the systems elements. This system states can be processed further and can be connected with mathematical and logical operators (also consecutively) into [[#zustandsgruppe|control clusters]]. The variety of options and possible connections allows for the representation of almost any desired operating rule. The system state / the control cluster to represent the operating rule is linked to the system element which the rule should be applied to. In case of a reservoir physical boundaries for releases as well as internal dependencies can be implemented. This results in the [[#steuerlogik|control logic]] of the river basin model.
The model equivalent to conducting measurements within the river basin is the retrieval of so-called [[#systemzustand|system states]] of the system elements. Further, these system states are processed and connected to mathematical and logical operators (also consecutively) into [[#zustandsgruppe|control clusters]]. The variety of options and possible connections allows for the representation of almost any desired operating rule. The system state / the control cluster representing the operating rule is linked to the system element to which the rule should be applied to. In the case of a reservoir, physical boundaries for releases as well as internal dependencies can be implemented. This results in the [[#steuerlogik|control logic]] of the river basin model.
Version vom 16. März 2021, 13:14 Uhr
The model equivalent to conducting measurements within the river basin is the retrieval of so-called system states of the system elements. Further, these system states are processed and connected to mathematical and logical operators (also consecutively) into control clusters. The variety of options and possible connections allows for the representation of almost any desired operating rule. The system state / the control cluster representing the operating rule is linked to the system element to which the rule should be applied to. In the case of a reservoir, physical boundaries for releases as well as internal dependencies can be implemented. This results in the control logic of the river basin model.