Learning From Errors: Detecting Cross-Technology Interference in WiFi Networks

Ilenia Tinnirello; Fabrizio Giuliano; Daniele Croce; Nicola Inzerillo; Domenico Garlisi; Daniele Croce; Domenico Garlisi; Fabrizio Giuliano; Ilenia Tinnirello

Learning From Errors: Detecting Cross-Technology Interference in WiFi Networks

Ilenia Tinnirello, Fabrizio Giuliano, Daniele Croce, Nicola Inzerillo, Domenico Garlisi, Daniele Croce, Domenico Garlisi, Fabrizio Giuliano, Ilenia Tinnirello

Risultato della ricerca: Article › peer review

6 Citazioni (Scopus)

Abstract

In this paper, we show that inter-technology interference can be recognized using commodity WiFi devices by monitoring the statistics of receiver errors. Indeed, while for WiFi standard frames the error probability varies during the frame reception in different frame fields (PHY, MAC headers, and payloads) protected with heterogeneous coding, errors may appear randomly at any point during the time the demodulator is trying to receive an exogenous interfering signal. We thus detect and identify cross-technology interference on off-the-shelf WiFi cards by monitoring the sequence of receiver errors (bad PLCP, bad FCS, invalid headers, etc.) and propose two methods to recognize the source of interference based on artificial neural networks and hidden Markov chains. The result is quite impressive, reaching an average accuracy of over 95% in recognizing ZigBee, microwave, and LTE (in unlicensed spectrum) interference.

Lingua originale	English
pagine (da-a)	347-356
Numero di pagine	10
Rivista	IEEE Transactions on Cognitive Communications and Networking
Volume	4
Stato di pubblicazione	Published - 2018

All Science Journal Classification (ASJC) codes

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abstract = "In this paper, we show that inter-technology interference can be recognized using commodity WiFi devices by monitoring the statistics of receiver errors. Indeed, while for WiFi standard frames the error probability varies during the frame reception in different frame fields (PHY, MAC headers, and payloads) protected with heterogeneous coding, errors may appear randomly at any point during the time the demodulator is trying to receive an exogenous interfering signal. We thus detect and identify cross-technology interference on off-the-shelf WiFi cards by monitoring the sequence of receiver errors (bad PLCP, bad FCS, invalid headers, etc.) and propose two methods to recognize the source of interference based on artificial neural networks and hidden Markov chains. The result is quite impressive, reaching an average accuracy of over 95% in recognizing ZigBee, microwave, and LTE (in unlicensed spectrum) interference.",

author = "Ilenia Tinnirello and Fabrizio Giuliano and Daniele Croce and Nicola Inzerillo and Domenico Garlisi and Daniele Croce and Domenico Garlisi and Fabrizio Giuliano and Ilenia Tinnirello",

year = "2018",

language = "English",

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T1 - Learning From Errors: Detecting Cross-Technology Interference in WiFi Networks

AU - Tinnirello, Ilenia

AU - Giuliano, Fabrizio

AU - Croce, Daniele

AU - Inzerillo, Nicola

AU - Garlisi, Domenico

AU - Croce, Daniele

AU - Garlisi, Domenico

AU - Giuliano, Fabrizio

AU - Tinnirello, Ilenia

PY - 2018

Y1 - 2018

N2 - In this paper, we show that inter-technology interference can be recognized using commodity WiFi devices by monitoring the statistics of receiver errors. Indeed, while for WiFi standard frames the error probability varies during the frame reception in different frame fields (PHY, MAC headers, and payloads) protected with heterogeneous coding, errors may appear randomly at any point during the time the demodulator is trying to receive an exogenous interfering signal. We thus detect and identify cross-technology interference on off-the-shelf WiFi cards by monitoring the sequence of receiver errors (bad PLCP, bad FCS, invalid headers, etc.) and propose two methods to recognize the source of interference based on artificial neural networks and hidden Markov chains. The result is quite impressive, reaching an average accuracy of over 95% in recognizing ZigBee, microwave, and LTE (in unlicensed spectrum) interference.

AB - In this paper, we show that inter-technology interference can be recognized using commodity WiFi devices by monitoring the statistics of receiver errors. Indeed, while for WiFi standard frames the error probability varies during the frame reception in different frame fields (PHY, MAC headers, and payloads) protected with heterogeneous coding, errors may appear randomly at any point during the time the demodulator is trying to receive an exogenous interfering signal. We thus detect and identify cross-technology interference on off-the-shelf WiFi cards by monitoring the sequence of receiver errors (bad PLCP, bad FCS, invalid headers, etc.) and propose two methods to recognize the source of interference based on artificial neural networks and hidden Markov chains. The result is quite impressive, reaching an average accuracy of over 95% in recognizing ZigBee, microwave, and LTE (in unlicensed spectrum) interference.

UR - http://hdl.handle.net/10447/350845

M3 - Article

SN - 2332-7731

VL - 4

SP - 347

EP - 356

JO - IEEE Transactions on Cognitive Communications and Networking

JF - IEEE Transactions on Cognitive Communications and Networking

ER -

Learning From Errors: Detecting Cross-Technology Interference in WiFi Networks

Abstract

All Science Journal Classification (ASJC) codes

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