H. N. Gabow and O. Kariv, "Algorithms for edge coloring bipartite graphs," in Proceedings of the Tenth Annual ACM Symposium on Theory of Computing (ACM,1978), pp. 184-192.
R. Cole, K. Ost, and S. Schirra, "Edge-coloring bipartite multigraphs in O(ElogD) time," Combinatorica 21, 5-12 (2001).
S. Taebi, S. A. Paredes, and T. J. Hall, "Performance of a packet switch with an optical core under self-similar traffic," in Proceedings of the IEEE Canadian Conference on Electrical and Computer Engineering (IEEE, 2004), pp. 747-750.
T. T. Lee and C. H. Lam, "Path switching--a quasi-static routing scheme for large-scale ATM packet switches," IEEE J. Select. Areas Commun. 15, 914-924 (1997).
S.-T. Chuang, A. Goel, N. McKeown, and B. Prabhakar, "Matching output queueing with a combined input∕output-queued switch," IEEE J. Select. Areas Commun. 17, 1030-1039 (1999).
Y. S. Yeh, M. G. Hluchyj, and A. S. Acampora, "The knockout switch--a simple, modular architecture for high-performance packet switching," IEEE J. Select. Areas Commun. 5, 1274-1283 (1987).
P. Gevros, J. Crowcroft, P. Kirstein, and S. Bhatti, "Congestion control mechanisms and the best effort service model," IEEE Netw. 15, 16-26 (2001).
K. Y. Eng, M. J. Karol, and Y. S. Yeh, "A growable packet (ATM) switch architecture: design principles and applications," IEEE Trans. Commun. 40, 423-430 (1992).
C. S. Chang, W. J. Chen, and H. Y. Huang, "Birkhoff-von Neumann input-buffered crossbar switches for guaranteed-rate services," IEEE Trans. Commun. 49, 1145-1147 (2001).
S. Iyer and N. McKeown, "Analysis of the parallel packet switch architecture," IEEE∕ACM Trans. Netw. 11, 314-324 (2003).
W. A. Crossland, I. G. Manolis, M. M. Redmond, K. L. Tan, T. D. Wilkinson, M. J. Holmes, T. R. Parker, H. H. Chu, J. Croucher, V. A. Handerek, S. T. Warr, B. Robertson, I. G. Bonas, R. Franklin, C. Stace, H. J. White, R. A. Woolley, and G. Henshall, "Holographic optical switching: the ROSES demonstrator," J. Lightwave Technol. 18, 1845-1854 (2000).
S. A. Paredes, "Flexible bandwidth provision and scheduling in a packet switch with an optical core," Ph.D.thesis, University of London, U.K., 2005.
Y. Wang, W. A. Crossland, and R. W. Scarr, "Modelling for optically interconnected packet switches," Proc. SPIE 4213, 44-55 (2000).
T. J. Hall, "Vivaldi: variations on a theme of optical crossbars," in E. Marom, N. A. Vainos, A. A. Friesem, J. W. Goodman, eds., Unconventional Elements for Information Storage, Processing and Communications, NATO-Series (Kluwer Academic, 2000), pp. 241-246.
T. J. Hall and W. A. Crossland, "IP-capable switch," UK Patent Application GB 0208797.1.
"Packet Switching," International Patent Application PCT∕GB2003∕001690 (April 2002).