An Existence Theorem for Room Squares*

R. C. Mullin; E. Nemeth

doi:10.4153/CMB-1969-063-6

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It is shown that if v is an odd prime power, other than a prime of the form 22n + 1, then there exists a Room square of order v + 1.

A room square of order 2n, where n is a positive integer, is an arrangement of 2n objects in a square array of 2 side 2n - 1, such that each of the (2n - 1)2 cells of the array is either-empty or contains exactly two distinct objects; each of the 2n objects appears exactly once in each row and column; and each (unordered) pair of objects occurs in exactly one cell.

Footnotes

Work supported in part by NRC Grant No. A-3071

References

1. Archbold, J. W. and Johnson, N. L., A Construction for Room's squares and an application in experimental design. Ann. Math. Stat. 29 (1958) 219–225.Google Scholar

2. Mullin, R. C. and Nemeth, E., On furnishing Room squares, (to appear)Google Scholar

3. Stanton, R. G. and Mullin, R. C., Construction of Room squares. Ann. Math. Stat. 39 (1968) 1540–1548.Google Scholar

4. Stanton, R. G., A multiplication theorem for Room squares, (to appear)Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Mullin, R. C. and Nemeth, E. 1970. On the Nonexistence of Orthogonal Steiner Systems of Order 9. Canadian Mathematical Bulletin, Vol. 13, Issue. 1, p. 131.

Horton, J. D. Mullin, R. C. and Stanton, R. G. 1971. A recursive construction for Room designs. Aequationes Mathematicae, Vol. 6, Issue. 1, p. 39.

Horton, J. D. 1971. Puintuplication of Room squares. Aequationes Mathematicae, Vol. 7, Issue. 2-3, p. 243.

Mullin, R. C. and Wallis, W. D. 1971. On the existence of Room squares of order 4n. Aequationes mathematicae, Vol. 6, Issue. 2-3, p. 306.

Stanton, R.G and Horton, J.D 1972. A multiplication theorem for Room Squares. Journal of Combinatorial Theory, Series A, Vol. 12, Issue. 3, p. 322.

Stanton, R.G and Mullin, R.C 1972. Room quasigroups and fermat primes. Journal of Algebra, Vol. 20, Issue. 1, p. 83.

Wallis, W. D. 1972. Duplication of Room squares. Journal of the Australian Mathematical Society, Vol. 14, Issue. 1, p. 75.

WALLIS, W.D. 1973. A Survey of Combinatorial Theory. p. 449.

Wallis, W. D. 1973. On the existence of room squares. Aequationes Mathematicae, Vol. 9, Issue. 2-3, p. 260.

Schellenberg, P. J. 1973. On balanced room squares and complete balanced Howell rotations. Aequationes Mathematicae, Vol. 9, Issue. 1, p. 75.

Anderson, B. A. 1974. Graphs and Combinatorics. Vol. 406, Issue. , p. 180.

Gross, Kenneth B 1974. Equivalence of Room designs. II. Journal of Combinatorial Theory, Series A, Vol. 17, Issue. 3, p. 299.

Gross, Kenneth B. 1974. A multiplication theorem for strong starters. Aequationes Mathematicae, Vol. 11, Issue. 2-3, p. 169.

Wallis, W. D. 1974. Combinatorial Mathematics. Vol. 403, Issue. , p. 143.

Gross, Kenneth B. 1975. Some new classes of strong starters. Discrete Mathematics, Vol. 12, Issue. 3, p. 225.

Gross, K.B 1975. On the maximal number of pairwise orthogonal Steiner triple systems. Journal of Combinatorial Theory, Series A, Vol. 19, Issue. 3, p. 256.

Mullin, R. C. and Wallis, W. D. 1975. The existence of Room squares. Aequationes Mathematicae, Vol. 13, Issue. 1-2, p. 1.

Hwang, F.K 1976. New classes of complete balanced Howell rotations. Journal of Combinatorial Theory, Series A, Vol. 21, Issue. 1, p. 86.

Gross, Kenneth B. and Leonard, Philip A. 1976. Adders for the patterned starter in nonabelian groups. Journal of the Australian Mathematical Society, Vol. 21, Issue. 2, p. 185.

Anderson, B. A. and Gross, K. B. 1977. Starter-adder methods in the construction of Howell designs. Journal of the Australian Mathematical Society, Vol. 24, Issue. 3, p. 375.

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An Existence Theorem for Room Squares*

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