TY - JOUR A1 - Liers, Frauke A1 - Merkert, Maximilian T1 - Structural Investigation of Piecewise Linearized Network Flow Problems N2 - In this work we study polyhedra in the context of network flow problems, where the flow value on each arc lies in one of several predefined intervals. This is motivated by nonlinear problems on transportation networks, where nonlinearities are handled by piecewise linear approximation or relaxation - a common and established approach in many applications. Several methods for modeling piecewise linear functions are known which provide a complete description for a single network arc. However, in general this property is lost when considering multiple arcs. We show how to strengthen the formulation for specific substructures consisting of multiple arcs by linear inequalities. For the case of paths of degree-two-nodes we give a complete description of the polyhedron projected to the integer variables. Our model is based on - but not limited to - the multiple choice method; we also show how to transfer our results to a formulation based on the incremental method. Computational results show that a state-of-the-art MIP-solver greatly benefits from using our cutting planes for random and realistic network topologies. KW - Combinatorial optimization KW - Complete description KW - Network flow problems KW - Piecewise linear functions Y1 - 2016 U6 - https://doi.org/10.1137/15M1006751 VL - 26 SP - 2863 EP - 2886 ER -