Abstract
Let \(P=\{C_1,C_2,\ldots , C_n\}\) be a set of color classes, where each color class \(C_i\) consists of a pair of objects. We focus on two problems in which the objects are points on the line. In the first problem (rainbow minmax gap), given P, one needs to select exactly one point from each color class, such that the maximum distance between a pair of consecutive selected points is minimized. This problem was studied by Consuegra and Narasimhan, who left the question of its complexity unresolved. We prove that it is NP-hard. For our proof we obtain the following auxiliary result. A 3-SAT formula is an LSAT formula if each clause (viewed as a set of literals) intersects at most one other clause, and, moreover, if two clauses intersect, then they have exactly one literal in common. We prove that the problem of deciding whether an LSAT formula is satisfiable or not is NP-complete. We present two additional applications of the LSAT result, namely, to rainbow piercing and rainbow covering.
In the second problem (covering color classes with intervals), given P, one needs to find a minimum-cardinality set \(\mathcal {I}\) of intervals, such that exactly one point from each color class is covered by an interval in \(\mathcal {I}\). Motivated by a problem in storage systems, this problem has received significant attention. Here, we settle the complexity question by proving that it is NP-hard.
Research supported by US-Israel Binational Science Foundation (project 2010074). E. Arkin and J. Mitchell are partially supported by the National Science Foundation (CCF-1526406).
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References
Arkin, E.M., DÃaz-Báñez, J.M., Hurtado, F., Kumar, P., Mitchell, J.S.B., Palop, B., Pérez-Lantero, P., Saumell, M., Silveira, R.I.: Bichromatic 2-center of pairs of points. Comput. Geom. 48(2), 94–107 (2015)
Arkin, E.M., Halldórsson, M.M., Hassin, R.: Approximating the tree and tour covers of a graph. Inf. Process. Lett. 47(6), 275–282 (1993)
Arkin, E.M., Hassin, R.: Minimum-diameter covering problems. Networks 36(3), 147–155 (2000)
Aspvall, B., Plass, M.F., Tarjan, R.E.: A linear-time algorithm for testing the truth of certain quantified boolean formulas. Inf. Process. Lett. 8(3), 121–123 (1979)
Biere, A., Heule, M., van Maaren, H.: Handbook of Satisfiability. IOS Press, Amsterdam (2009)
Consuegra, M.E., Narasimhan, G.: Geometric avatar problems. In: IARCS Annual Conference on Foundations of Software Technology and Theoretical Computer Science, FSTTCS 2013, vol. 24. LIPIcs, pp. 389–400 (2013)
Cook, S.A.: The complexity of theorem-proving procedures. In: Proceedings of the 3rd Annual ACM Symposium on Theory of Computing, pp. 151–158 (1971)
Dowling, W.F., Gallier, J.H.: Linear-time algorithms for testing the satisfiability of propositional horn formulae. J. Logic Program. 1(3), 267–284 (1984)
Gabow, H.N., Maheshwari, S.N., Osterweil, L.J.: On two problems in the generation of program test paths. IEEE Trans. Softw. Eng. 2(3), 227–231 (1976)
Hudec, O.: On alternative p-center problems. Zeitschrift fur Operations Research 36(5), 439–445 (1992)
Knuth, D.: Sat11 and sat11k. In: Proceedings of SAT Competition 2013; Solver and Benchmark Descriptions, p. 32 (2013)
Knuth, D.E.: Nested satisfiability. Acta Informatica 28(1), 1–6 (1990)
Tanimoto, S.L., Itai, A., Rodeh, M.: Some matching problems for bipartite graphs. J. ACM (JACM) 25(4), 517–525 (1978)
Tovey, C.A.: A simplified NP-complete satisfiability problem. Discrete Appl. Math. 8(1), 85–89 (1984)
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Arkin, E.M. et al. (2015). Choice Is Hard. In: Elbassioni, K., Makino, K. (eds) Algorithms and Computation. ISAAC 2015. Lecture Notes in Computer Science(), vol 9472. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-48971-0_28
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DOI: https://doi.org/10.1007/978-3-662-48971-0_28
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