1. Timothy C. Burness, Michael Giudici, and Robert A. Wilson, Prime order derangements in primitive permutation groups, Preprint (2010), 21 pages.
  2. Peter J. Cameron, Michael Giudici, Gareth A. Jones, William M. Kantor, Mikhail H. Klin, Dragan Marušič, and Lewis A. Nowitz, Transitive permutation groups without semiregular subgroups, J. London Math. Soc. (2) 66 (2002), no. 2, 325–333.[MR]
  3. Maria Cristeta Cuaresma, Michael Giudici, and Cheryl E. Praeger, Homogeneous factorisations of Johnson graphs, Des. Codes Cryptogr. 46 (2008), no. 3, 303–327.[MR]
  4. Alice Devillers and Michael Giudici, Involution graphs where the product of two adjacent vertices has order three, J. Aust. Math. Soc. 85 (2008), no. 3, 305–322.
  5. Alice Devillers, Michael Giudici, Cai Heng Li, Geoffrey Pearce, and Cheryl E. Praeger, On imprimitive rank 3 permutation groups, preprint (2010).[arXiv]
  6. Alice Devillers, Michael Giudici, Cai Heng Li, and Cheryl E. Praeger, A remarkable Mathieu graph tower, preprint, 23 pages.
  7. Alice Devillers, Michael Giudici, Cai Heng Li, and Cheryl E. Praeger, Primitive decompositions of Johnson graphs, J. Combin. Theory Ser. A 115 (2008), no. 6, 925–966.[MR]
  8. Alice Devillers, Michael Giudici, Cai Heng Li, and Cheryl E. Praeger, An infinite family of biquasiprimitive 2-arc transitive cubic graphs, Preprint (2009), 1–19.
  9. Alice Devillers, Michael Giudici, Cai Heng Li, and Cheryl E. Praeger, Locally s-distance transitive graphs, preprint (2010).[arXiv]
  10. Alice Devillers, Michael Giudici, Cai Heng Li, and Cheryl E. Praeger, Some graphs related to the small Mathieu groups, European J. Combin. 31 (2010), no. 1, 336–348.[MR/doi]
  11. Michael Giudici, Factorisations of sporadic simple groups, J. Algebra 304 (2006), no. 1, 311–323.[MR]
  12. Michael Giudici, Cai Heng Li, Primož Potočnik, and Cheryl E. Praeger, Homogeneous factorisations of complete multipartite graphs, Discrete Math. 307 (2007), no. 3-5, 415–431.[MR]
  13. Michael Giudici and Aedan Pope, The diameters of commuting graphs of linear groups and matrix rings over the integers modulo m, preprint (2010), 10 pages.[arXiv]