Wu chang Feng. Improving Internet Congestion Control and Queue Management Algorithms. Technical report, 1999.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....shut up. This problem is known as fairness problem. Over the past few years, there has been extensive research conducted to solve the fairness problem. Weighted Fair Queueing (WFQ) 53] and Core Stateless Fair Queue (CSFQ) 65] are two well known fair algorithms. Other fair algorithms include BLUE [16, 17], CHOKe [51] and RFQ [9] Fair algorithms solve the fairness problem by allocating bandwidth equally among contending sources. While equal bandwidth allocation is mathematically and intellectually satisfying, and probably is a good solution when all contending flows are TCP flows, it has a ....

Wu-chang Feng. Improving Internet Congestion Control and Queue Management Algorithms. PhD thesis, University of Michigan, 1999.

....shut up. This problem is known as fairness problem. Over the past few years, there has been extensive research conducted to solve the fairness problem. Weighted Fair Queueing (WFQ) 11] and Core Stateless Fair Queue (CSFQ) 12] are two well known fair algorithms. Other fair algorithms include BLUE [3, 4], CHOKe [10] and RFQ [1] The fairness problem in the Internet is now well recognised. Many packet queueing and discarding algorithms have been proposed in the last few years to effectively address the issue of fairness. Some network equipment manufacturers have already implemented these ....

Wu-chang Feng. Improving Internet Congestion Control and Queue Management Algorithms. PhD thesis, University of Michigan, 1999.

....shut up. This problem is known as fairness problem. Over the past few years, there has been extensive research conducted to solve the fairness problem. Weighted Fair Queueing (WFQ) 13] and Core Stateless Fair Queue (CSFQ) 14] are two well known fair algorithms. Other fair algorithms include BLUE [4, 5], CHOKe [12] and RFQ [2] The fairness problem in the Internet is now well recognised. Many packet queueing and discarding algorithms have been proposed in the last few years to effectively address the issue of fairness. Some network equipment manufacturers have already implemented these ....

Wu-chang Feng. Improving Internet Congestion Control and Queue Management Algorithms. PhD thesis, University of Michigan, 1999.

....the mitigation efforts. And their mitigation efforts consist of rerouting the traffic whereas ours focuses on implementing a control architecture. Wu Chang Feng, also of the University of Michigan, has developed a neural network optimizer for bandwidth allocation in telecommunications networks [9]. In Feng s work, feedforward neural networks were used to quickly optimize bandwidth allocation. To evaluate the performance of the neural network optimizer, the results were compared to results from a linear programming optimizer. Feng removes the real time control effect from this work, ....

Feng, Wu Chang. (1999) Improving Internet Congestion Control and Queue Management Algorithms. PhD thesis, The University of Michigan, Ann Harbor, Michigan. Computer Science and Engineering.

....for a new VPN or classification may be made packet by packet at entry to the network. A quantity of literature has arisen on the classification of traffic and the techniques to be used to ensure a router has enough information to assist in the best possible scheduling decision, e.g. Nichols99, Feng99a, Cao00] although it is also apparent that there is still scope for future research in this area. In the proposed dynamic allocator mechanism there is less interaction between the classification and differentiation performed by the scheduler. While the scheduling requirements may be seen to ....

W. Feng. Improving Internet congestion control and queue management algorithms. PhD thesis, The University of Michigan, 1999. (p 213)

....avoided. There have been many simulation studies of the RED gateway [4, 6 8] But there still remain open issues. The hardest one is how to choose several control parameters of the RED gateway. Despite the fact that e#ectiveness of the RED gateway heavily relies on a choice of control parameters [6, 9, 10], it has not been fully investigated how to configure those control parameters. The authors of [4] have proposed a recommended set of control parameters, but it is just an empirical guideline. There are only a few analytical studies on the RED gateway. In [11] the authors have analyzed the ....

W.-C. Feng, Improving Internet congestion control and queue management algorithms. PhD thesis, University of Michigan, USA, 1999.

....avoided. There have been many simulation studies of the RED gateway [4, 6 8] But there still remain open issues. The biggest one is how to choose several control parameters of the RED gateway. Despite the fact that e#ectiveness of the RED gateway heavily relies on a choice of control parameters [6, 9, 10], it has not been fully investigated how to configure those control parameters. The authors of [4] have proposed a recommended set of control parameters, but it is just an empirical guideline. There are only a few analytical studies on 2 IEICE TRANS. COMMUN. VOL.E85 B, NO.1 JANUARY 2002 the RED ....

W. chang Feng, Improving Internet congestion control and queue management algorithms. PhD thesis, University of Michigan, USA, 1999.

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Wu chang Feng. Improving Internet Congestion Control and Queue Management Algorithms. Technical report, 1999.

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Feng W (1999) Improving Internet Congestion Control and Queue Management Algorithms. PhD Dissertation, University of Michigan

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Wu-chang Feng, "Improving Internet Congestion Control and Queue Management Algorithms", PhD Dissertation, University of Michigan, 1999

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W. Feng, \Improving Internet congestion control and queue management algorithms," Ph.D. dissertation, University of Michigan, USA, 1999.

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