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Chamfer distances on the isometric grid: a structural description of minimal distances based on linear programming approach

Author

Listed:
  • Gergely Kovács

    (Edutus University)

  • Benedek Nagy

    (Eastern Mediterranean University)

  • Béla Vizvári

    (Eastern Mediterranean University)

Abstract

Chamfer distances on the isometric grid are considered. A new method to compute the chamfer distances based on linear optimization is presented. In the LP model the starting pixel is the Origin, that is a triangle of the grid having co-ordinates (0, 0, 0). The co-ordinates of the end pixel of the path give the right-hand side of the model. The variables are the used numbers of the elementary steps. Each type of an elementary step has a uniquely defined weight. Our operational research approach determines the optimal paths as basic feasible solutions of a linear programming problem. We give directed graphs with feasible bases as nodes and arcs with conditions on the used weights such that the simplex method of linear programming may step from one feasible basis to another feasible basis. Thus, the possible course of the simplex method can be followed and the optimal bases can easily be captured. Thus, the final result of the analysis is an O(1) checking of the feasibility and optimality conditions. The optimal bases are summarized in a theorem which is the consequence of the general theory of linear programming. The method can be applied for other grids, but it needs to be adjusted for the particular grid.

Suggested Citation

  • Gergely Kovács & Benedek Nagy & Béla Vizvári, 2019. "Chamfer distances on the isometric grid: a structural description of minimal distances based on linear programming approach," Journal of Combinatorial Optimization, Springer, vol. 38(3), pages 867-886, October.
  • Handle: RePEc:spr:jcomop:v:38:y:2019:i:3:d:10.1007_s10878-019-00425-x
    DOI: 10.1007/s10878-019-00425-x
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    Cited by:

    1. Benedek Nagy & Bashar Khassawneh, 2020. "On the Number of Shortest Weighted Paths in a Triangular Grid," Mathematics, MDPI, vol. 8(1), pages 1-16, January.
    2. Gergely Kovács & Benedek Nagy & Gergely Stomfai & Neşet Deniz Turgay & Béla Vizvári, 2021. "Discrete Optimization: The Case of Generalized BCC Lattice," Mathematics, MDPI, vol. 9(3), pages 1-20, January.

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