Abstract
Let T=(V, E,v 0) be a rooted tree, where V is a set of n vertices, E is a set of edges and v 0 ∃ V is the root. The travel times d(v i,vj) and d(v j,vi) are associated with each edge (v i,vj) ∃ E, and a job, which is also denoted as v i, is located at each vertex v i. Each job v i has release time r(v j) and handling time h(v i). The TREE-VSP (Vehicle Scheduling Problem on a Tree) asks to find a routing schedule of the vehicle such that it starts from root v 0, visits all jobs v i ∃ V for processing, and returns to v 0. The processing of a job v i cannot be started before its release time t=r(v i) (hence the vehicle may have to wait if it arrives at v i too early) and takes h(v i) time units once its processing has been started (no interruption is allowed). The objective is to find a schedule that minimizes the completion time (i.e., the time to return to v 0 after processing all jobs). We first prove that TREE-VSP is NP-hard. Then we show that TREE-VSP with depth-first routing constraint can be exactly solved in θ(n log n) time. Finally we show that, if we regard this exact algorithm as an approximate algorithm for TREE-VSP without such routing constraint, its worst-case ratio is at most two, and that this bound is tight.
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© 1993 Springer-Verlag Berlin Heidelberg
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Karuno, Y., Nagamochi, H., Ibaraki, T. (1993). Vehicle scheduling on a tree with release and handling times. In: Ng, K.W., Raghavan, P., Balasubramanian, N.V., Chin, F.Y.L. (eds) Algorithms and Computation. ISAAC 1993. Lecture Notes in Computer Science, vol 762. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-57568-5_280
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DOI: https://doi.org/10.1007/3-540-57568-5_280
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