References� �
[1] L. Breslau, S. Jamin, and S. Shenker, “Comments on the performance of measurement-based admission control algorithms,” in Proceedings of IEEE INFOCOM, Tel Aviv, Israel, March 2000, pp. 1233-1242.
[2] G. Bianchi, F. Borgonovo, A. Capone, L. Fratta, and C. Petrioli, “Endpoint admission control with delay variation measurements for QoS in IP networks,” ACM Computer Communication Review, vol. 32, no. 2, pp. 61-69, April 2002.
[3] V. Elek, G. Karlsson, and R. Ronngren, “Admission control based on end-to-end measurements,” in Proceedings of IEEE INFOCOM, Tel Aviv, Israel, March 2000, pp. 623-630.
[4] G. Bianchi, A. Capone, and C. Petrioli, “Throughput analysis of end-to-end measurement-based admission control in IP,” in Proceedings IEEE INFOCOM, Tel Aviv, Israel, March 2000, vol. 3, pp. 1461-1470.
[5] F. Kelly, P. Key, and S. Zachary, “Distributed admission control,” IEEE Journal on Selected Areas in Communications, vol. 18, no. 12, pp. 2617-2628, December 2000.
[6] S. Jamin, S. Shenker, and P. Danzig, “Comparison of measurement-based admission control algorithms for controlled-load service,” in Proceedings of IEEE INFOCOM, Kobe, Japan, April 1997, pp. 56-70.
[7] L. Breslau, E. Knightly, S. Shenker, I. Stoica, and H. Zhang, “Endpoint admission control: architectural issues and performance,” in Proceedings of ACM SIGCOMM, Stockholm, Sweden, August 2000, pp. 57-69.
[8] Lj. Trajkovic and A. Neidhardt, “Effect of traffic knowledge on the efficiency of admission control policies,” ACM Computer Communication Review, vol. 29, no. 1, pp. 5-34, January 1999.