Title :
The geometry of coin-weighing problems
Author :
Alon, Noga ; Kozlov, Dmitry N. ; Vu, Van H.
Author_Institution :
Raymond & Beverly Sackler Fac. of Exact Sci., Tel Aviv Univ., Israel
Abstract :
Given a set of m coins out of a collection of coins of k unknown distinct weights, the authors wish to decide if all the m given coins have the same weight or not using the minimum possible number of weighings in a regular balance beam. Let m(n,k) denote the maximum possible number of coins for which the above problem can be solved in n weighings. They show that m(n,2)=n(½+o(1))n, whereas for all 3⩽k⩽n+1, m(n,k) is much smaller than m(n,2) and satisfies m(n,k)=Θ(n log n/log k). The proofs have an interesting geometric flavour; and combine linear algebra techniques with geometric probabilistic and combinatorial arguments
Keywords :
algorithm theory; computational geometry; linear algebra; probability; trees (mathematics); coin collection; coin weighing problems; geometric combinatorial arguments; geometric probabilistic arguments; geometry; linear algebra techniques; proofs; regular balance beam; unknown distinct weights; Arithmetic; Combinatorial mathematics; Geometry; H infinity control; Lattices; Linear algebra;
Conference_Titel :
Foundations of Computer Science, 1996. Proceedings., 37th Annual Symposium on
Conference_Location :
Burlington, VT
Print_ISBN :
0-8186-7594-2
DOI :
10.1109/SFCS.1996.548511
