Sade: competitive MAC under adversarial SINR

Adrian Ogierman; Andrea Richa; Christian Scheideler; Stefan Schmid; Jin Zhang

doi:10.1007/s00446-017-0307-1

Sade: competitive MAC under adversarial SINR

Adrian Ogierman, Andrea Richa, Christian Scheideler, Stefan Schmid^*, Jin Zhang

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

13 Citations (Scopus)

Abstract

This paper considers the problem of how to efficiently share a wireless medium which is subject to harsh external interference or even jamming. So far, this problem is understood only in simplistic single-hop or unit disk graph models. We in this paper initiate the study of MAC protocols for the SINR interference model (a.k.a. physical model). This paper makes two contributions. First, we introduce a new adversarial SINR model which captures a wide range of interference phenomena. Concretely, we consider a powerful, adaptive adversary which can jam nodes at arbitrary times and which is only limited by some energy budget. Our second contribution is a distributed MAC protocol called Sade which provably achieves a constant competitive throughput in this environment: we show that, with high probability, the protocol ensures that a constant fraction of the non-blocked time periods is used for successful transmissions.

Original language	English
Journal	Distributed Computing
Volume	31
Issue number	3
Pages (from-to)	241-254
Number of pages	14
ISSN	0178-2770
DOIs	https://doi.org/10.1007/s00446-017-0307-1
Publication status	Published - Jun 2018

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title = "Sade: competitive MAC under adversarial SINR",

abstract = "This paper considers the problem of how to efficiently share a wireless medium which is subject to harsh external interference or even jamming. So far, this problem is understood only in simplistic single-hop or unit disk graph models. We in this paper initiate the study of MAC protocols for the SINR interference model (a.k.a. physical model). This paper makes two contributions. First, we introduce a new adversarial SINR model which captures a wide range of interference phenomena. Concretely, we consider a powerful, adaptive adversary which can jam nodes at arbitrary times and which is only limited by some energy budget. Our second contribution is a distributed MAC protocol called Sade which provably achieves a constant competitive throughput in this environment: we show that, with high probability, the protocol ensures that a constant fraction of the non-blocked time periods is used for successful transmissions.",

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AU - Ogierman, Adrian

AU - Richa, Andrea

AU - Scheideler, Christian

AU - Schmid, Stefan

AU - Zhang, Jin

PY - 2018/6

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N2 - This paper considers the problem of how to efficiently share a wireless medium which is subject to harsh external interference or even jamming. So far, this problem is understood only in simplistic single-hop or unit disk graph models. We in this paper initiate the study of MAC protocols for the SINR interference model (a.k.a. physical model). This paper makes two contributions. First, we introduce a new adversarial SINR model which captures a wide range of interference phenomena. Concretely, we consider a powerful, adaptive adversary which can jam nodes at arbitrary times and which is only limited by some energy budget. Our second contribution is a distributed MAC protocol called Sade which provably achieves a constant competitive throughput in this environment: we show that, with high probability, the protocol ensures that a constant fraction of the non-blocked time periods is used for successful transmissions.

AB - This paper considers the problem of how to efficiently share a wireless medium which is subject to harsh external interference or even jamming. So far, this problem is understood only in simplistic single-hop or unit disk graph models. We in this paper initiate the study of MAC protocols for the SINR interference model (a.k.a. physical model). This paper makes two contributions. First, we introduce a new adversarial SINR model which captures a wide range of interference phenomena. Concretely, we consider a powerful, adaptive adversary which can jam nodes at arbitrary times and which is only limited by some energy budget. Our second contribution is a distributed MAC protocol called Sade which provably achieves a constant competitive throughput in this environment: we show that, with high probability, the protocol ensures that a constant fraction of the non-blocked time periods is used for successful transmissions.

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DO - 10.1007/s00446-017-0307-1

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SN - 0178-2770

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JO - Distributed Computing

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Sade: competitive MAC under adversarial SINR

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