Property B
In mathematics, Property B is a certain set theoretic property. Formally, given a finite set X, a collection C of subsets of X, all of size n, has Property B if we can partition X into two disjoint subsets Y and Z such that every set in C meets both Y and Z. The smallest number of sets in a collection of sets of size n such that C does not have Property B is denoted by m(n).
The property gets its name from mathematician Felix Bernstein, who first introduced the property in 1908.
Values of m(n)
It is known that m(1) = 1, m(2) = 3, and m(3) = 7 (as can by seen by the following examples); the value of m(4) is not known, although an upper bound of 23 (Seymour, Toft) and a lower bound of 21 (Manning) have been proven. At the time of this writing (August 2004), there is no OEIS entry for the sequence m(n) yet, due to the lack of terms known.
- m(1)
- For n = 1, set X = {1}, and C = {{1}}. Then C does not have Property B.
- m(2)
- For n = 2, set X = {1, 2, 3} and C = {{1, 2}, {1, 3}, {2, 3}}. Then C does not have Property B, so m(2) <= 3. However, C' = {{1, 2}, {1, 3}} does (set Y = {1} and Z = {2, 3}), so m(2) >= 3.
- m(3)
- For n = 3, set X = {1, 2, 3, 4, 5, 6, 7}, and C = {{1, 2, 4}, {2, 3, 5}, {3, 4, 6}, {4, 5, 7}, {5, 6, 1}, {6, 7, 2}, {7, 1, 3}} (the Steiner triple system S7); C does not have Property B (so m(3) <= 7), but if any element of C is omitted, then that element can be taken as Y, and the set of remaining elements C' will have Property B (so for this particular case, m(3) >= 7). One may check all other collections of 6 3-sets to see that all have Property B.
- m(4)
- Seymour (1974) constructed a hypergraph on 11 vertices with 23 edges without Property B, which shows that m(4) <= 23. Manning (1995) proved that m(4) >= 20.
Asymptotics of m(n)
Erdős (1963) proved that for any collection of fewer than sets of size n, there exists a 2-coloring in which no set is monochromatic. The proof is simple: Consider a random coloring. The probability that an arbitrary set is monochromatic is . By a union bound, the probability that there exist a monochromatic set is less than . Therefore, there exists a good coloring.
Erdős (1964) showed the existence of an n-uniform hypergraph with hyperedges which does not have property B, establishing an upper bound. Schmidt (1963) proved that every collection of at most sets of size n has property B. Erdős and Lovász conjectured that . Beck in 1978 improved the lower bound to . In 2000, Radhakrishnan and Srinivasan improved the lower bound to . They used a clever probabilistic algorithm.
References
- Bernstein, F. (1908), "Zur theorie der trigonometrische Reihen", Leipz. Ber., 60: 325–328.
- Erdős, Paul (1963), "On a combinatorial problem", Nordisk Mat. Tidskr., 11: 5–10
- Erdős, P. (1964). "On a combinatorial problem. II". Acta Mathematica Academiae Scientiarum Hungaricae. 15 (3–4): 445–447. doi:10.1007/BF01897152.
- Schmidt, W. M. (1964). "Ein kombinatorisches Problem von P. Erdős und A. Hajnal". Acta Mathematica Academiae Scientiarum Hungaricae. 15 (3–4): 373–374. doi:10.1007/BF01897145.
- Seymour, Paul (1974), "A note on a combinatorial problem of Erdős and Hajnal", Bulletin of the London Mathematical Society, 8: 681–682, doi:10.1112/jlms/s2-8.4.681.
- Toft, Bjarne (1975), "On colour-critical hypergraphs", in Hajnal, A.; Rado, Richard; Sós, Vera T., Infinite and Finite Sets: To Paul Erdös on His 60th Birthday, North Holland Publishing Co., pp. 1445–1457.
- Manning, G. M. (1995), "Some results on the m(4) problem of Erdős and Hajnal", Electronic Research Announcements of the American Mathematical Society, 1: 112–113, doi:10.1090/S1079-6762-95-03004-6.
- Beck, J. (1978), "On 3-chromatic hypergraphs", Discrete Mathematics, 24 (2): 127–137, doi:10.1016/0012-365X(78)90191-7.
- Radhakrishnan, J.; Srinivasan, A. (2000), "Improved bounds and algorithms for hypergraph 2-coloring", Random Structures and Algorithms, 16 (1): 4–32, doi:10.1002/(SICI)1098-2418(200001)16:1<4::AID-RSA2>3.0.CO;2-2.
- Miller, E. W. (1937), "On a property of families of sets", Comp. Rend. Varsovie: 31–38.
- Erdős, P.; Hajnal, A. (1961), "On a property of families of sets", Acta Math. Acad. Sci. Hung., 12: 87–123, doi:10.1007/BF02066676.
- Abbott, H. L.; Hanson, D. (1969), "On a combinatorial problem of Erdös", Canadian Mathematical Bulletin, 12: 823–829, doi:10.4153/CMB-1969-107-x
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