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Dynamic QoS-Aware Traffic Planning for Time-Triggered Flows in the Real-Time Data Plane

Jonathan Falk, Heiko Geppert, Frank Dürr, Sukanya Bhowmik, Kurt Rothermel

2022IEEE Transactions on Network and Service Management22 citationsDOIOpen Access PDF

Abstract

Many networked applications, e.g., in the domain of cyber-physical systems, require strict service guarantees for time-triggered traffic flows, usually in the form of jitter and latency bounds. It is a notoriously hard problem to compute a network-wide traffic plan, i.e., a set of routes and transmission schedules, that satisfies these requirements, and dynamic changes in the flow set add even more challenges. Existing traffic-planning methods are ill-suited for dynamic scenarios because they either suffer from high computational cost, can result in low network utilization, or provide no explicit guarantees when transitioning to a new traffic plan that incorporates new flows. Therefore, we present a novel approach for dynamic traffic planning of time-triggered flows. Our conflict-graph-based modeling of the traffic planning problem allows for the reconfiguration of active flows to increase the network utilization, while also providing per-flow QoS guarantees during the transition to the new traffic plan. Additionally, we introduce a novel heuristic for computing the new traffic plans. Evaluations of our prototypical implementation show that we can efficiently compute new traffic plans in scenarios with hundreds of active flows for a wide range of settings.

Topics & Concepts

Computer scienceQuality of serviceForwarding planeReal-time computingComputer networkReal-time dataDistributed computingNetwork packetWorld Wide WebNetwork Time Synchronization TechnologiesReal-Time Systems SchedulingDistributed systems and fault tolerance
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