We've got the power: Overcoming the distance enlargement fraud with wireless power transfer

Leo Happ Botler; Kay Uwe Römer; Konrad Diwold

We've got the power: Overcoming the distance enlargement fraud with wireless power transfer

Leo Happ Botler, Kay Uwe Römer, Konrad Diwold

Publikation: Konferenzbeitrag › Paper › Begutachtung

Abstract

Distance bounding protocols have been previously
introduced to establish upper and lower bounds on the distance
between two entities. This article demonstrates how coupled
transmission techniques, stemming from the domain of wireless
power transfer, can be used for distance bounding. The proposed
approach can detect and prevent distance enlargement frauds,
which were deemed unsolvable for electromagnetic propagation based distance bounding protocols. The effectiveness of the
proposed approach is demonstrated and evaluated via numerical
simulations. The results suggest that the proposed approach is
capable of measuring the distance between two devices communicating via inductive coupling with an average accuracy of
8:14 cm when using a hardware with 12-bit voltage measurement
resolution in the absence of noise.

Originalsprache	englisch
Publikationsstatus	Veröffentlicht - 20 Juni 2019
Veranstaltung	IEEE MTT-S Wireless Power Transfer Conference: IEEE WPTC 2019 - Imperial College, London, Großbritannien / Vereinigtes Königreich Dauer: 17 Juni 2019 → 21 Juni 2019 http://www.wpw2019.org/index.htm

Konferenz

Konferenz	IEEE MTT-S Wireless Power Transfer Conference
Kurztitel	WPTC
Land/Gebiet	Großbritannien / Vereinigtes Königreich
Ort	London
Zeitraum	17/06/19 → 21/06/19
Internetadresse	http://www.wpw2019.org/index.htm

IoT4CPS - Zuverlässiges Internet der Dinge für Cyber-Physische Systeme
Mangard, S. & Römer, K. U.
1/12/17 → 30/11/20
Projekt: Forschungsprojekt

Dieses zitieren

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title = "We've got the power: Overcoming the distance enlargement fraud with wireless power transfer",

abstract = "Distance bounding protocols have been previouslyintroduced to establish upper and lower bounds on the distancebetween two entities. This article demonstrates how coupledtransmission techniques, stemming from the domain of wirelesspower transfer, can be used for distance bounding. The proposedapproach can detect and prevent distance enlargement frauds,which were deemed unsolvable for electromagnetic propagation based distance bounding protocols. The effectiveness of theproposed approach is demonstrated and evaluated via numericalsimulations. The results suggest that the proposed approach iscapable of measuring the distance between two devices communicating via inductive coupling with an average accuracy of8:14 cm when using a hardware with 12-bit voltage measurementresolution in the absence of noise.",

keywords = "Wireless power transfer, Coupled distance bound, Distance fraud, Distance enlargement, Distance Bounding",

author = "{Happ Botler}, Leo and R{\"o}mer, {Kay Uwe} and Konrad Diwold",

year = "2019",

month = jun,

day = "20",

language = "English",

note = "IEEE MTT-S Wireless Power Transfer Conference : IEEE WPTC 2019, WPTC ; Conference date: 17-06-2019 Through 21-06-2019",

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TY - CONF

T1 - We've got the power: Overcoming the distance enlargement fraud with wireless power transfer

AU - Happ Botler, Leo

AU - Römer, Kay Uwe

AU - Diwold, Konrad

PY - 2019/6/20

Y1 - 2019/6/20

N2 - Distance bounding protocols have been previouslyintroduced to establish upper and lower bounds on the distancebetween two entities. This article demonstrates how coupledtransmission techniques, stemming from the domain of wirelesspower transfer, can be used for distance bounding. The proposedapproach can detect and prevent distance enlargement frauds,which were deemed unsolvable for electromagnetic propagation based distance bounding protocols. The effectiveness of theproposed approach is demonstrated and evaluated via numericalsimulations. The results suggest that the proposed approach iscapable of measuring the distance between two devices communicating via inductive coupling with an average accuracy of8:14 cm when using a hardware with 12-bit voltage measurementresolution in the absence of noise.

AB - Distance bounding protocols have been previouslyintroduced to establish upper and lower bounds on the distancebetween two entities. This article demonstrates how coupledtransmission techniques, stemming from the domain of wirelesspower transfer, can be used for distance bounding. The proposedapproach can detect and prevent distance enlargement frauds,which were deemed unsolvable for electromagnetic propagation based distance bounding protocols. The effectiveness of theproposed approach is demonstrated and evaluated via numericalsimulations. The results suggest that the proposed approach iscapable of measuring the distance between two devices communicating via inductive coupling with an average accuracy of8:14 cm when using a hardware with 12-bit voltage measurementresolution in the absence of noise.

KW - Wireless power transfer, Coupled distance bound, Distance fraud, Distance enlargement, Distance Bounding

M3 - Paper

T2 - IEEE MTT-S Wireless Power Transfer Conference

Y2 - 17 June 2019 through 21 June 2019

ER -

We've got the power: Overcoming the distance enlargement fraud with wireless power transfer

Abstract

Konferenz

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Projekte

IoT4CPS - Zuverlässiges Internet der Dinge für Cyber-Physische Systeme

Dieses zitieren