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Determination of a Subset from Certain Combinatorial Properties

Published online by Cambridge University Press:  20 November 2018

David G. Cantor
Affiliation:
Institute for Defense Analyses, Princeton, New Jersey and University of Washington
W. H. Mills
Affiliation:
Institute for Defense Analyses, Princeton, New Jersey and University of Washington
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Let N be a finite set of n elements. A collection ﹛S1, S2, … , Sm﹜ of subsets of N is called a determining collection if an arbitrary subset T of N is uniquely determined by the cardinalities of the intersections SiT, 1 ≤ im. The purpose of this paper is to study the minimum value D(n) of m for which a determining collection of m subsets exists.

This problem can be expressed as a coin-weighing problem (1; 7).

In a recent paper Cantor (1) showed that D(n) = O(n/log log n), thus proving a conjecture of N. J. Fine (3) that D(n) = o(n). More recently Erdös and Rényi (2), Söderberg and Shapiro (7), Berlekamp, Mills, and Leo Moser have independently found proofs that D(n) = O(n/log n).

Type
Research Article
Copyright
Copyright © Canadian Mathematical Society 1966

References

1. Cantor, David G., Determining a set from the cardinalities of its intersections with other sets, Can. J. Math., 16 (1964), 9497.Google Scholar
2. Erdös, P. and Rényi, A., On two problems of information theory, Publ. Hung. Acad. Sci., 8 (1963), 241254.Google Scholar
3. Fine, N. J., Solution E1399, Amer. Math. Monthly, 67 (1960), 697698.Google Scholar
4. Lindström, B., On a combinatory detection problem, Publ. Hung. Acad. Sci., 9 (1964), 195207.Google Scholar
5. Lindström, B., On a combinatorial problem in number theory, Can. Math. Bull., 4(1965), 477490.Google Scholar
6. Ryser, H. J., Maximal determinants in combinatorial investigations, Can. J. Math., 8 (1956), 245249.Google Scholar
7. Söderberg, Staffan and Shapiro, H. S., A combinatory detection problem, Amer. Math. Monthly, 70 (1963), 10661070.Google Scholar