qos自适应数据连接中端到端带宽分配的动态

M. Rabby, K. Ravindran
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引用次数: 6

摘要

本文讨论了LAN-MAN端到端qos感知数据传输系统中带宽分配的动态特性。这里,受控对象是一个逻辑连接,它在服务提供者的数据传输基础设施上承载应用程序级数据流。目标是分配刚好足够的带宽,以便使服务提供商的收入最大化。由于系统中动态共享网络容量的各种数据流之间的相互作用,以收益为导向的目标精确控制带宽分配是非常复杂的。因此,我们采用启发式辅助的在线监测和控制方案,根据观察到的丢包率迭代地调整带宽分配。当观察到丢包率超过用户设定的阈值时,带宽分配会增加,增加幅度与丢包率成正比(即乘增长)。当丢包率低于安全限值时,带宽会逐渐减小。本文描述了这种基于miad的带宽分配方案,并对其动态特性进行了研究。当局域网-城域网环境以稳定的方式提供带宽容量时,我们的MIAD方案可以实现最佳带宽分配(在用户级QoS和服务提供商收入的意义上)。
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Dynamics of End-to-End Bandwidth Allocations in QoS-adaptive Data Connections
The paper discusses the dynamics of bandwidth allocations that occur in an end-to-end QoS-aware data transport system over a LAN-MAN. Here, the controlled object is a logical connection that carries the application-level data flows over the service provider's data transport infrastructure. The goal is to allocate just-enough bandwidth, in order to maximize the service-provider revenues. Accurate control of bandwidth allocations with a revenue-oriented goal is quite complex, due to the interactions among various data flows that dynamically share the network capacity in the system. So, we employ an on-line monitor-and-control scheme, aided by heuristics, that iteratively adjusts the bandwidth allocation based on the observed packet loss rate. The bandwidth allocation is increased when the observed packet loss rate exceeds a user-specified threshold, with the increase being proportional to the loss rate (i.e., multiplicative increase). The bandwidth is decreased additively when the loss rate falls below a safe limit. We describe this MIAD-based bandwidth allocation scheme, and study its dynamics. When the LAN-MAN environments provide bandwidth capacities in a stable manner, our MIAD scheme can achieve an optimal bandwidth allocation (in the sense of user-level QoS and service-provider revenues).
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