Abstract
We study the reoptimization of the Minimum Latency problem (MLP) in metric space with respect to the modifications of adding (resp. removing) a vertex and increasing (resp. decreasing) the cost of an edge \(e^*\). We provide 7 / 3-approximation and 3-approximation algorithms for the modifications of adding and removing a vertex, respectively. For the modification of increasing the cost of an edge \(e^*\), we obtain \(\alpha \)-approximation algorithms where \(\alpha \) changes from 2.1286 to 4 / 3 as \(e^*\) moves from the first edge to the last edge in the given optimal tour of the initial instance. Concerning the case of decreasing the cost of an edge \(e^*\), if \(e^*\) is an edge of the given optimal tour, we get a 2-approximation algorithm. Moreover, if \(e^*\) is the i-th edge of the given optimal tour and i is a constant, we derive a
, but prove that an 
does not exist unless 
. We also show that the special case where \(i\in \{1,2\}\) is polynomial-time solvable. If \(e^*\) is not in the given optimal tour, we derive a 2.1286-approximation algorithm, where n is the number of vertices. Finally, we show that if an approximation solution instead of an optimal one is given for the initial instance, the reoptimization of MLP with the vertex deletion operation admits no \(\alpha \)-approximation algorithm unless MLP itself admits such an algorithm.
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Acknowledgements
Wenkai Dai would like to thank Tobias Mömke for his constructive comments on a preliminary version of this paper.
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A preliminary version of this paper appeared in the Proceedings of the 23th Annual International Computing and Combinatorics Conference (COCOON 2017), Lecture Notes in Computer Science, vol. 10392, pp. 162–174, 2017.
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Dai, W., Yang, Y. Reoptimization of minimum latency problem revisited: don’t panic when asked to revisit the route after local modifications. J Comb Optim 37, 601–619 (2019). https://doi.org/10.1007/s10878-018-0317-3
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DOI: https://doi.org/10.1007/s10878-018-0317-3