Wang Sheng, Li Lemin. A NEW ABR CONGESTION CONTROL ALGORITHM ACHIEVED FAIRNESS UNDER SEVERAL CRITERIA[J]. Journal of Electronics & Information Technology, 1999, 21(5): 652-659.
Citation:
Wang Sheng, Li Lemin. A NEW ABR CONGESTION CONTROL ALGORITHM ACHIEVED FAIRNESS UNDER SEVERAL CRITERIA[J]. Journal of Electronics & Information Technology, 1999, 21(5): 652-659.
Wang Sheng, Li Lemin. A NEW ABR CONGESTION CONTROL ALGORITHM ACHIEVED FAIRNESS UNDER SEVERAL CRITERIA[J]. Journal of Electronics & Information Technology, 1999, 21(5): 652-659.
Citation:
Wang Sheng, Li Lemin. A NEW ABR CONGESTION CONTROL ALGORITHM ACHIEVED FAIRNESS UNDER SEVERAL CRITERIA[J]. Journal of Electronics & Information Technology, 1999, 21(5): 652-659.
All the ABR congestion control algorithms reported are designed to achieve max-min fairness. In this paper, a new algorithm named dynamic bandwidth allocation algorithm is presented. Under the same framework, the algorithm can achieve fairness under several given criterion. Simulation result shows that the new algorithm works well under various network configurations, various traffic classes, and scale well to LAN or WAN either.
Arulambalam A, Chen Xiaoqiang, Ansari N. Allocating fair rates for available bit rate service in ATM networks, IEEE Comm. Mag. 1996, 34(11): 92-100.[2]Jaffe J. Bottleneck flow control, IEEE Trans. on Comm, 1981, COM-29(7): 954-962.[3]The ATM Forum Traffic Management Specification Version 4.0, ATM Forum Traffic Management AF-TM-0056.000, April 1996.Jain R, Kalyanaraman S, Goyal R, et al. ERICA Switch Algorithm: A Complete Description, AF-TM 96-1172, August 1996.
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