Chapter twelve: Adaptive routing and wavelength assignment
245
16. H. Harai, M. Murata, and H. Miyahara, Performance of alternate routing
methods in all-optical switching networks, Proc. IEEE INFOCOM '97, vol. 2,
Apr. 1997, pp. 516524.
17. E.A. Varvarigos and J. Lang, A virtual circuit deflection protocol, IEEE/ACM
Trans. Networking, vol. 7, no. 3, June 1999, pp. 335349.
18. R. Koch, Increasing the size of a network by a constant factor can increase
performance by more than a constant factor, Symp. Foundations of Computer
Science, vol. 18, Oct. 1988, pp. 221230.
19. S. Subramaniam, M. Azizoglu, and A.K. Somani, All-optical networks with
sparse wavelength conversion, IEEE/ACM Trans. Networking, vol. 4, no. 4,
Aug. 1996, pp. 544557.
20. J. Yates, J. Lacey, D. Everitt, and M. Summerfield, Limited-range wavelength
translation in all-optical networks, Proc. IEEE INFOCOM '96, vol. 3, Mar. 1996,
pp. 954961.
21. R. Ramaswami and G.H. Sasaki, Multi-wavelength optical networks with
limited wavelength conversion, Proc. IEEE INFOCOM '97, Kobe, Japan, Apr.
1997.
22. N. Wauters and P. Demeester, Wavelength translation in optical multi-wave-
length multi-fiber transport networks, Int. J. Optoelectronics, vol. 11, no. 1,
Jan.Feb. 1997, pp. 5370.
23. N.F. Maxemchuk, Problems arising from deflection routing: live-lock,
lock-out, congestion and message reassembly, in High-Capacity Local and Met-
ropolitan Area Networks, G. Pujolle, Ed., Berlin, Germany: Springer-Verlag, June
1990.
24. F. Borgonovo, L. Fratta, and J. Bannister, Unslotted deflection routing in
all-optical networks, Proc. IEEE GLOBECOM '93, vol. 1, pp. 119125.
25. Z. Haas and D.R. Cheriton, Blazenet: a packet-switched wide-area network
with photonic data path, IEEE Trans. Commun., vol. 38, pp. 818829, June 1990.
26. A.G. Greenberg and J. Goodman, Sharp approximate models of adaptive
routing in mesh networks, Proc. Teletraffic Analysis and Computer Performance
Evaluation, June 1986, pp. 255270.
27. A. G. Greenberg and B. Hajek, Deflection routing in hypercube networks,
IEEE Trans. Commun., vol. 40, June 1992, pp. 10701081.
28. J. Bannister, F. Borgonovo, L. Fratta, and M. Gerla, A versatile model for
predicting the performance of deflection-routing networks, Perform. Eval., vol.
16, nos. 13, Nov. 1992, pp. 201222.
29. F. Borgonovo, L. Fratta, and J. Bannister, On the design of optical deflec-
tion-routing networks, Proc. IEEE INFOCOM '94, vol. 1, pp. 120129.
30. N.F. Maxemchuk, Comparison of deflection and store-and-forward tech-
niques in the Manhattan Street and Shuffle-Exchange networks, Proc. IEEE
INFOCOM '89, vol. 3, pp. 800809.
31. J.T. Brassil, Deflection routing in certain regular networks, Ph.D. dissertation,
University of California at San Diego, 1991.
32. A. Krishna and B. Hajek, Performance of shuffle-like switching networks with
deflection, Proc. IEEE INFOCOM '90, vol. 2, pp. 473480.
33. E.A. Varvarigos and D.P. Bertsekas, Performance of hypercube routing
schemes with or without buffering, IEEE/ACM Trans. Networking, vol. 2, June
1994, pp. 299311.
1333_Frame_12.fm Page 245 Wednesday, March 5, 2003 12:40 PM
© 200
3 by CRC Press LLC