D. Gamarnik, Using Fluid Models to Prove Stability of Adversarial Queueing Networks. In IEEE Transactions on Automatic Control, Vol. 45, No. 4, pp. 741--747, 2000. Home/Search Document Details and Download
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Instability Phenomena in Underloaded Packet.. - Marsan.. (2003) (Correct)
....Definition 7 is the standard definition for stability in queueing systems. Definition 9 is instead the stability definition deriving from adversarial queueing theory, and is the strongest of our stability conditions. Stability under Definition 9 implies all other forms of stability, as shown in [15]; instability under Definition 7 implies instability under Definition 9. III. ANALYTICAL TECHNIQUES A. Previous Work Two existing analytical tools were mainly applied in stability studies: the stochastic Lyapunov function methodology [16] and the fluid limit theory [13] Both tools, and the ....
....FIFO networks it was shown that some underload instability may arise. However, since FIFO queueing networks modeling communication networks always fall in the class of generalized Kelly type networks, we only consider such networks in this paper. It is important to observe that, as proved in [15], universal stability implies rate stability and stability of the queueing network (the opposite is, of course, not true) Finally, we notice that an important stability result for underloaded GPS networks was obtained in [2] by applying Network Calculus [19] 20] concepts. In [2] any ....
D.Gamarnik, "Using Fluid Models to Prove Stability of Adversarial Queueing Networks", IEEE Transactions on Automatic Control, Vol. 45, n. 4, April 2000, pp. 741-746.
Stability of Adaptive and Non-Adaptive Packet Routing Policies.. - Gamarnik (2000) (27 citations) Self-citation (Gamarnik) (Correct)
....version of this paper appeared in Proceedings of 31st Ann. ACM Symposium on the Theory of Computing, 1999. packets to process when several packets are competing for the same edge. Such models have been introduced by Borodin et al. in [6] and considered subsequently in several papers [3] [10], 11] 17] In packet switch networks an adversary injects packets and only specifies their origin and destination. The scheduler is free to choose a path along which the packets are processed. This model has been considered only recently by Aiello et al. 1] In both models the goal of the ....
D. Gamarnik. Using fluid models to prove stability of adversarial queueing networks. IEEE Transactions on Automatic Control, 4:741-747, 2000. 16
On Delivery Times in Packet Networks under Adversarial Traffic - Rosen, Tsirkin (2004) (2 citations) (Correct)
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D. Gamarnik, Using Fluid Models to Prove Stability of Adversarial Queueing Networks. In IEEE Transactions on Automatic Control, Vol. 45, No. 4, pp. 741--747, 2000.
Stability of Data Networks: Stationary and Bursty Models - Heng-Qing Ye Business (Correct)
No context found.
Gamarnik, D. (2000). Using fluid models to prove stability of adversarial queueing networks. IEEE Transactions on Automatic Control, 45, 741-747.
Instability Phenomena in Underloaded Packet.. - Marsan.. (Correct)
No context found.
D.Gamarnik, "Using Fluid Models to Prove Stability of Adversarial Queueing Networks", IEEE Transactions on Automatic Control, Vol. 45, n. 4, April 2000, pp. 741-746.
Stability of Data Networks: Stationary and Bursty Models - Ye, Yuan (Correct)
No context found.
Gamarnik, D. (2000). Using Fluid Models to Prove Stability of Adversarial Queueing Networks. IEEE Transactions on Automatic Control, 45, 741-747.
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