There is a particular problem called MCFP (Max. Concurrent Flow Problem) in network flow optimization theory, which is an advanced-level (somehow) of the classical Maximum Flow problem (e.g, https://en.wikipedia.org/wiki/Edmonds%E2%80%93Karp_algorithm) but instead of send/receive one type of flow (single commodity), the MCFP treats multi-commodity (many and heterogeneous) flows concurrently at the same time.

In other words, in a graph (network) for example, we can have 02 source nodes "s1, s2" and 02 destination nodes "d1, d2" (that send and receive multi-commodity data respectively), the MCFP in this case try to compute the shortest path "sp" between each source and destination (there is here 02 shortest paths, sp1 between s1 and d1 and sp2 between s2 and d2) in which one or more arc could be in common, and the most important part (where the edge belongs to one or more shortest path) is the calculation of throughput for both flows (in our case), that should be the same for all concurrent flows.

My Question: I am searching for examples (applications) in real world where we could use MCFP (or where it is already used), because I didn't find any scenario or a concrete example about it. Is there any technology that use it ?

For more details : https://dl.acm.org/citation.cfm?id=77620

Thank you so much

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