Orchestrating network usage under the threat of unexpected bandwidth shortages

What is claimed is: 1 . A method for orchestrating the use of at least one communications network for conveying a plurality of data streams transmitted by a plurality of applications, the method comprising: attributing to individual data streams, and/or to groups of data streams, levels of importance, wherein the applications transmitting the data streams participate in operation of an industrial plant; determining, based at least in part on the levels of importance and on network capacity requirements of the data streams, an ordered list of data streams to be curtailed or stopped in case of a shortage of bandwidth in the communications network; and providing the ordered list to a network management entity that is configured to: monitor the available bandwidth in the communications network; compare the available bandwidth to a combined bandwidth requirement of all data streams currently being transmitted; and in response to determining that the available bandwidth is, or is imminent to become, less than the combined bandwidth requirement, curtail or stop data streams in the order given by the list so as to bring the combined bandwidth requirement back to or below the available bandwidth, wherein in at least one data stream of the data streams comprises a critical video stream that is, at least in a degraded form, required for continuing operation of the plant, wherein the critical video stream is a live video stream that monitors the execution of a process or is analyzed to assess quality or quality issues of a manufactured product, wherein the at least one data stream comprises measurement values of a process quantity, and the curtailing of this data stream comprises extending an interval at which new measurement values of the process quantity are transmitted, and wherein the process quantity is associated with varied time scales for obtaining associated measurement values. 2 . The method of claim 1 , wherein the ordered list contains at least a first entry and a second entry affecting a same data stream, the second entry being a later entry than the first entry, wherein the first entry indicates that the data stream is to be curtailed, and wherein the second entry indicates that the data stream is to be curtailed even further or stopped. 3 . The method of claim 1 , wherein the network management entity is further configured to, in response to determining that the available bandwidth is higher than the combined bandwidth requirement, and when at least one data stream is curtailed or stopped, un-curtail or re-start at least one curtailed or stopped data stream, provided the un-curtailing or re-starting of the at least one curtailed or stopped data stream will not lead to exceeding the available bandwidth. 4 . The method of claim 3 , further comprising determining, based at least in part on the levels of importance and on network capacity requirements of the data streams, a second ordered list of data streams indicating an order in which data streams are to be un-curtailed or re-started. 5 . The method of claim 1 , wherein the curtailing or stopping of at least one data stream comprises one or more of: deallocating resources intended for use by the data stream; instructing a source of the data stream to curtail bandwidth usage of the data stream, or to stop the data stream; instructing at least one network infrastructure device to throttle bandwidth usage of the data stream, or to block forwarding of the data stream; and instructing at least one network infrastructure device to compress and/or transcode the data stream. 6 . The method of claim 1 , wherein the attributing of importances to data streams comprises classifying at least one data stream, as at least one of: a non-negotiable data stream that is not to be curtailed or stopped; a scalable data stream that may be curtailed up to a given extent; or a best-effort data stream that may be stopped. 7 . The method of claim 1 , wherein the levels of importance are attributed to data streams and/or groups of data streams based at least in part on the importance of these data streams for the operation of the industrial plant. 8 . The method of claim 7 , wherein at least one data stream with measurement values of a first process quantity is classified as a non-negotiable data stream, wherein at least one data stream with measurement values of a second process quantity is classified as a scalable data stream; and wherein during execution of the process, the first process quantity varies on a faster time scale than the second process quantity. 9 . The method of claim 8 , wherein the first process quantity is a pressure, and the second process quantity is a temperature. 10 . The method of claim 1 , wherein the applications transmitting the data streams participate in an execution of the process, and the levels of importance are attributed to data streams and/or groups of data streams based at least in part on the importance of these data streams for the execution of the process. 11 . The method of claim 1 , wherein the critical video data stream is classified either as a non-negotiable data stream or as a scalable data stream. 12 . The method of claim 1 , wherein the determining of the ordered list of data streams to be curtailed or stopped is negotiated between multiple entities in a consensus manner, and the result of this negotiation is provided to the network management entity. 13 . The method of claim 1 , wherein the network management entity is a software defined network, SDN, controller or a 5G Network Exposure Interface.