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A mixed breadth-depth first strategy for the branch and bound tree of Euclidean k-center problems

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  • Hatem Fayed
  • Amir Atiya

Abstract

The k-center problem arises in many applications such as facility location and data clustering. Typically, it is solved using a branch and bound tree traversed using the depth first strategy. The reason is its linear space requirement compared to the exponential space requirement of the breadth first strategy. Although the depth first strategy gains useful information fast by reaching some leaves early and therefore assists in pruning the tree, it may lead to exploring too many subtrees before reaching the optimal solution, resulting in a large search cost. To speed up the arrival to the optimal solution, a mixed breadth-depth traversing strategy is proposed. The main idea is to cycle through the nodes of the same level and recursively explore along their first promising paths until reaching their leaf nodes (solutions). Thus many solutions with diverse structures are obtained and a good upper bound of the optimal solution can be achieved by selecting the minimum among them. In addition, we employ inexpensive lower and upper bounds of the enclosing balls, and this often relieves us from calling the computationally expensive exact minimum enclosing ball algorithm. Experimental work shows that the proposed strategy is significantly faster than the naked branch and bound approach, especially as the number of centers and/or the required accuracy increases. Copyright Springer Science+Business Media, LLC 2013

Suggested Citation

  • Hatem Fayed & Amir Atiya, 2013. "A mixed breadth-depth first strategy for the branch and bound tree of Euclidean k-center problems," Computational Optimization and Applications, Springer, vol. 54(3), pages 675-703, April.
    • Handle: RePEc:spr:coopap:v:54:y:2013:i:3:p:675-703
    DOI: 10.1007/s10589-012-9503-x
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    References listed on IDEAS

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    1. René Brandenberg & Lucia Roth, 2009. "New algorithms for k-center and extensions," Journal of Combinatorial Optimization, Springer, vol. 18(4), pages 376-392, November.
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    Cited by:

    1. Marek RužiÄ ka & Marcel VoloÅ¡in & Juraj Gazda & Taras Maksymyuk & Longzhe Han & MisCha Dohler, 2022. "Fast and computationally efficient generative adversarial network algorithm for unmanned aerial vehicle–based network coverage optimization," International Journal of Distributed Sensor Networks, , vol. 18(3), pages 15501477221, March.
    2. Jean-Thomas Camino & Christian Artigues & Laurent Houssin & Stéphane Mourgues, 2019. "Linearization of Euclidean norm dependent inequalities applied to multibeam satellites design," Computational Optimization and Applications, Springer, vol. 73(2), pages 679-705, June.

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