2008 |
23 | EE | Elizabeth J. Billington,
Dean G. Hoffman,
Christopher A. Rodger:
Resolvable gregarious cycle decompositions of complete equipartite graphs.
Discrete Mathematics 308(13): 2844-2853 (2008) |
22 | EE | Elizabeth J. Billington,
Christopher A. Rodger:
Resolvable 4-cycle group divisible designs with two associate classes: Part size even.
Discrete Mathematics 308(2-3): 303-307 (2008) |
21 | EE | Elizabeth J. Billington,
Dean G. Hoffman:
Equipartite and almost-equipartite gregarious 4-cycle systems.
Discrete Mathematics 308(5-6): 696-714 (2008) |
2007 |
20 | EE | Elizabeth J. Billington,
Benjamin R. Smith,
Dean G. Hoffman:
Equipartite gregarious 6- and 8-cycle systems.
Discrete Mathematics 307(13): 1659-1667 (2007) |
2005 |
19 | EE | Elizabeth J. Billington,
Hung-Lin Fu,
Christopher A. Rodger:
Packing lambda-Fold Complete Multipartite Graphs with 4-Cycles.
Graphs and Combinatorics 21(2): 169-186 (2005) |
2004 |
18 | EE | Elizabeth J. Billington:
The extended metamorphosis of a complete bipartite design into a cycle system.
Discrete Mathematics 284(1-3): 63-70 (2004) |
2003 |
17 | EE | Elizabeth J. Billington,
Dean G. Hoffman:
Decomposition of complete tripartite graphs into gregarious 4-cycles.
Discrete Mathematics 261(1-3): 87-111 (2003) |
2002 |
16 | | Elizabeth J. Billington,
Gaetano Quattrocchi:
The metamorphosis of lambda-fold K3, 3-designs into lambda-fold 6-cycle systems.
Ars Comb. 64: 65- (2002) |
15 | EE | Peter Adams,
Elizabeth J. Billington,
Darryn E. Bryant,
Ebadollah S. Mahmoodian:
The three-way intersection problem for latin squares.
Discrete Mathematics 243(1-3): 1-19 (2002) |
14 | EE | Elizabeth J. Billington,
Dean G. Hoffman:
Trade spectra of complete partite graphs.
Discrete Mathematics 250(1-3): 23-39 (2002) |
13 | EE | Peter Adams,
Elizabeth J. Billington,
Darryn E. Bryant,
Saad El-Zanati:
On the Hamilton-Waterloo Problem.
Graphs and Combinatorics 18(1): 31-51 (2002) |
2001 |
12 | EE | Peter Adams,
Elizabeth J. Billington,
Darryn E. Bryant,
Abdollah Khodkar:
The mu-way intersection problem for m-cycle systems.
Discrete Mathematics 231(1-3): 27-56 (2001) |
11 | EE | Elizabeth J. Billington,
Dean G. Hoffman:
Trades and Graphs.
Graphs and Combinatorics 17(1): 39-54 (2001) |
2000 |
10 | EE | Peter Adams,
Elizabeth J. Billington,
Italo J. Dejter,
Charles Curtis Lindner:
The number of 4-cycles in 2-factorizations of K2n minus a 1-factor.
Discrete Mathematics 220(1-3): 1-11 (2000) |
1999 |
9 | | Elizabeth J. Billington,
Darryn E. Bryant:
The possible number of cycles in cycle systems.
Ars Comb. 52: (1999) |
8 | EE | Elizabeth J. Billington:
Decomposing complete tripartite graphs into cycles of lengths 3 and 4.
Discrete Mathematics 197-198: 123-135 (1999) |
1998 |
7 | EE | Elizabeth J. Billington,
Dean G. Hoffman:
The intersection problem for star designs.
Discrete Mathematics 179(1-3): 217-222 (1998) |
1996 |
6 | | Peter Adams,
Elizabeth J. Billington:
Lambda-fold 3-perfect 9-cycle systems.
Ars Comb. 44: (1996) |
5 | EE | Peter Adams,
Elizabeth J. Billington,
Darryn E. Bryant:
Partitionable perfect cycle systems with cycle lengths 6 and 8.
Discrete Mathematics 149(1-3): 1-9 (1996) |
1994 |
4 | EE | Elizabeth J. Billington,
Charles Curtis Lindner:
The spectrum for 2-perfect bowtie systems.
Discrete Mathematics 135(1-3): 61-68 (1994) |
1991 |
3 | EE | Elizabeth J. Billington,
Dean G. Hoffman:
The number of repeated blocks in balanced ternary designs with block size three II.
Discrete Mathematics 92(1-3): 25-37 (1991) |
1989 |
2 | EE | Elizabeth J. Billington:
New cyclic (61, 244, 40, 10, 6) BIBDs.
Discrete Mathematics 77(1-3): 51-53 (1989) |
1982 |
1 | EE | Elizabeth J. Billington:
More balanced ternary designs with block size three.
Discrete Mathematics 39(1): 9-21 (1982) |