I've been searching around, but it seems that I have a slightly different case of everyone's favorite problems: TSP, Hamiltonian, Eulerian, etc. I have a graph, represented by V (vertices) and E (edges), where each edge is undirected and has a certain cost to traverse. I want to traverse every single edge, with possible repeats, at minimal cost.

Intuitively, the problem feels NP-hard, since it is so related to other NP-hard problems. However, I realize that since the path can repeat edges, it is potentially easier.

My first thought was to transform the edges into vertices and the vertices into nodes and try to analyze it like a Hamiltonian. However, that has the restriction of visiting every node only once, and I can't find any information about a relaxation of the problem where a node can be visited more than once.

Does anyone know if I'm just bad at searching and that this is actually a problem that is known about and studied?