This paper considers networks operating under α-fair bandwidth sharing. When imposing a peak rate (i.e., an upper bound on the users’ transmission rates, which could be thought of as access rates), the equilibrium point of the fluid limit is explicitly identified, for both the single-node network as well as the linear network. More specifically, a criterion is derived that indicates, for each specific class, whether or not it is essentially transmitting at peak rate. Knowing the equilibrium point of the fluid limit, the steady-state behavior under a diffusion scaling is determined. This allows an explicit characterization of the correlations between the number of flows of the various classes
We consider a model of Internet congestion control that represents the randomly varying number of fl...
Bandwidth-sharing networks are important flow level models of communication networks. We focus on th...
We study the asymptotic behavior of solutions to a fluid model for a data communication network, whe...
This paper considers networks operating under alpha-fair bandwidth sharing. When imposing a peak rat...
htmlabstractThis paper considers networks operating under alpha-fair bandwidth sharing. When imposin...
Bandwidth-sharing networks as considered by Roberts and Massoulié [28] (Roberts JW, Massoulié L (199...
Bandwidth-sharing networks as considered by Roberts and Massoulié [28] (Roberts JW, Massoulié L (199...
Bandwidth-sharing networks as introduced by Massoulie ́ & Roberts (1998) model the dynamic inte...
htmlabstractBandwidth-sharing networks as introduced by Massouli\'e~\& Roberts (1998) model the dyna...
Bandwidth-sharing networks provide a natural modeling framework for describing the dynamic flow-leve...
Bandwidth-sharing networks as introduced by Roberts and Massoulié [Roberts JW, Massoulié L (1998) Ba...
Bandwidth-sharing networks as considered by Massoulié and Roberts provide a natural modeling framewo...
Bandwidth-sharing networks as considered by Massoulie & Roberts provide a natural modeling frame...
Abstract—Bandwidth-sharing networks as considered by Mas-soulie ́ & Roberts provide a natural m...
Bandwidth sharing networks as considered by [Massoulie and Roberts (1999)] and [Roberts and Massouli...
We consider a model of Internet congestion control that represents the randomly varying number of fl...
Bandwidth-sharing networks are important flow level models of communication networks. We focus on th...
We study the asymptotic behavior of solutions to a fluid model for a data communication network, whe...
This paper considers networks operating under alpha-fair bandwidth sharing. When imposing a peak rat...
htmlabstractThis paper considers networks operating under alpha-fair bandwidth sharing. When imposin...
Bandwidth-sharing networks as considered by Roberts and Massoulié [28] (Roberts JW, Massoulié L (199...
Bandwidth-sharing networks as considered by Roberts and Massoulié [28] (Roberts JW, Massoulié L (199...
Bandwidth-sharing networks as introduced by Massoulie ́ & Roberts (1998) model the dynamic inte...
htmlabstractBandwidth-sharing networks as introduced by Massouli\'e~\& Roberts (1998) model the dyna...
Bandwidth-sharing networks provide a natural modeling framework for describing the dynamic flow-leve...
Bandwidth-sharing networks as introduced by Roberts and Massoulié [Roberts JW, Massoulié L (1998) Ba...
Bandwidth-sharing networks as considered by Massoulié and Roberts provide a natural modeling framewo...
Bandwidth-sharing networks as considered by Massoulie & Roberts provide a natural modeling frame...
Abstract—Bandwidth-sharing networks as considered by Mas-soulie ́ & Roberts provide a natural m...
Bandwidth sharing networks as considered by [Massoulie and Roberts (1999)] and [Roberts and Massouli...
We consider a model of Internet congestion control that represents the randomly varying number of fl...
Bandwidth-sharing networks are important flow level models of communication networks. We focus on th...
We study the asymptotic behavior of solutions to a fluid model for a data communication network, whe...