Induced idleness leads to deterministic heavy traffic limits for queue-based random-access algorithms

Eyal Castiel; Sem Borst; Laurent Miclo; Florian Simatos; Phil Whiting

doi:10.1214/20-AAP1609

April 2021 Induced idleness leads to deterministic heavy traffic limits for queue-based random-access algorithms

Eyal Castiel, Sem Borst, Laurent Miclo, Florian Simatos, Phil Whiting

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Abstract

We examine a queue-based random-access algorithm where activation and deactivation rates are adapted as functions of queue lengths. We establish its heavy traffic behavior on a complete interference graph, which turns out to be nonstandard in two respects: (1) the scaling depends on some parameter of the algorithm and is not the $N/{N^{2}}$ scaling usually found in functional central limit theorems; (2) the heavy traffic limit is deterministic. We discuss how this nonstandard behavior arises from the idleness induced by the distributed nature of the algorithm. In order to prove our main result, we develop a new method for obtaining a fully coupled stochastic averaging principle.

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Eyal Castiel. Sem Borst. Laurent Miclo. Florian Simatos. Phil Whiting. "Induced idleness leads to deterministic heavy traffic limits for queue-based random-access algorithms." Ann. Appl. Probab. 31 (2) 941 - 971, April 2021. https://doi.org/10.1214/20-AAP1609

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Received: 1 February 2020; Published: April 2021

First available in Project Euclid: 1 April 2021

Digital Object Identifier: 10.1214/20-AAP1609

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Primary: 60K25

Secondary: 60K35

Keywords: CSMA algorithms , state space collapse , stochastic averaging principle

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