Book contents
- Frontmatter
- Contents
- Preface
- Papers contributed by the participants
- Perfect codes and distance-transitive graphs
- Generalisation of Fisher's inequality to fields with more than one element
- On balanced arrays
- Positions in Room squares
- Analogues of Heawood's theorem
- Cut-set lattices of graphs
- On the chromatic index of a graph, II.
- On a theorem of R. A. Liebler
- Outerthickness and outercoarseness of graphs
- Graphs with homeomorphically irreducible spanning trees
- A note on embedding latin rectangles
- Some results in semi-stable graphs
- Hereditary properties and P-chromatic numbers
- Some problems concerning complete latin squares
- Necklace enumeration with adjacency restrictions
- On a family of planar bicritical graphs
- On the enumeration of partially ordered sets of integers
- The distance between nodes in recursive trees
- Partition relations
- On a problem of Daykin concerning intersecting families of sets
- Unstable trees
- Distance-transitive graphs
- Enumeration of graphs on a large periodic lattice
- Some polynomials associated with graphs
- Equidistant point sets
- Eigenvalues of graphs and operations
- Graph theory and algebraic topology
- Applications of polymatroids and linear programming to transversals and graphs
- Problem section
A note on embedding latin rectangles
Published online by Cambridge University Press: 05 April 2013
- Frontmatter
- Contents
- Preface
- Papers contributed by the participants
- Perfect codes and distance-transitive graphs
- Generalisation of Fisher's inequality to fields with more than one element
- On balanced arrays
- Positions in Room squares
- Analogues of Heawood's theorem
- Cut-set lattices of graphs
- On the chromatic index of a graph, II.
- On a theorem of R. A. Liebler
- Outerthickness and outercoarseness of graphs
- Graphs with homeomorphically irreducible spanning trees
- A note on embedding latin rectangles
- Some results in semi-stable graphs
- Hereditary properties and P-chromatic numbers
- Some problems concerning complete latin squares
- Necklace enumeration with adjacency restrictions
- On a family of planar bicritical graphs
- On the enumeration of partially ordered sets of integers
- The distance between nodes in recursive trees
- Partition relations
- On a problem of Daykin concerning intersecting families of sets
- Unstable trees
- Distance-transitive graphs
- Enumeration of graphs on a large periodic lattice
- Some polynomials associated with graphs
- Equidistant point sets
- Eigenvalues of graphs and operations
- Graph theory and algebraic topology
- Applications of polymatroids and linear programming to transversals and graphs
- Problem section
Summary
Introduction
The well-known theorem of H. J. Ryser [12] giving necessary and sufficient conditions for an r × s latin rectangle on 1, …, n to be embedded in an n × n latin square on 1, …, n was used by T. Evans [2] (and independently by S. K. Stein) to show that an incomplete n × n latin square on 1, …, n can be completed to a 2n × 2n latin square on 1, …, 2n. A similar, but somewhat more complicated, pair of theorems concerning symmetric latin squares was proved by A. Cruse [1].
The purpose of this note is to give alternative and, in my opinion, simpler proofs of the theorem of Ryser and the analogous theorem of Cruse. Ryser's theorem generalizes M. Hall's theorem [31 that an r × n latin rectangle on 1, …, n can be embedded in an n × n latin square on 1, …, n, but the methods of proof seem to be rather dissimilar. The proof of RyserTs theorem which is given here is very obviously a simple generalization of the original proof of M. Hall's theorem.
There are still some open problems in this area (see [5], [71), so it is possible that the existence of these alternative proofs may help towards the solution of some of these problems.
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- Combinatorics , pp. 69 - 74Publisher: Cambridge University PressPrint publication year: 1974