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We show that a class of semidefinite programs (SDP) admits a solution that is a positive semidefinite matrix of rank at most $r$, where $r$ is the rank of the matrix involved in the objective function of the SDP. The optimization problems of this class are semidefinite packing problems, which are the SDP analogs to vector packing problems. Of particular interest is the case in which our result guarantees the existence of a solution of rank one: we show that the computation of this solution actually reduces to a Second Order Cone Program (SOCP). We point out an application in statistics, in the optimal design of experiments.
This paper proposes the first model for toll enforcement optimization
on German motorways. The enforcement is done by mobile control teams and our
goal is to produce a schedule achieving network-wide control, proportional to
spatial and time-dependent traffic distributions. Our model consists of two
parts. The first plans
control tours using a vehicle routing approach with profits and some side
constraints. The second plans feasible rosters for the control teams. Both
problems can be modeled as Multi-Commodity Flow Problems. Adding additional
coupling constraints produces a large-scale integrated integer programming
formulation. We show that this model can be solved to optimality for real
world instances associated with a control area in East Germany.