The invention is directed towards providing control in a first computerized control system of a real world object provided in a second computerized control system that is connected to the first system. The real world object is represented in the second system by an originating container being linked to originating aspects representing data and/or operations of the originating container. Control in the first system is generally accomplished through providing, in the first system, a proxy container corresponding to the originating container in the second system together with aspects corresponding to originating aspects of the originating container and being linked to the proxy container.

In a system and a method for control and/or analytics of an industrial process and especially a system and a method for the prioritization of the data transmission of process data from plant-side automation and processing units to remote processing units external to the plant, the system has an the plant side at least one automation or processing unit, which carries out first process variable computations and acts on the process. On the side external to the plant, the system has a remote processing unit that carries out a number of second process variable computations and that receives local data from the at least one automation or processor unit via a data connection and at least one data collector unit. The data collector unit prioritizes the data transfer via the data connection between the at least one automation or processor unit and the processing unit external to the plant.

The invention provides an implementing method of cloud numerical control system. The method implements a numerical control system with functions of online error compensation, CAD/CAPP/CAM/CNC integrating and interactively cooperative assembling machining control. The cloud numerical control system includes a small cloud numerical control system a large cloud numerical control system. The small cloud numerical control system focuses on inside control of a single numerical control machining device and includes a cloud control core node, cloud measure and control subnodes and fine-tuning driving units. The large cloud numerical control system is based on the small cloud numerical control system and performs interactively cooperative machining between multiple numerical control machining devices for different workpieces to be assembled.