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Murphy loves CI : Unfolding and Improving Constructive Interference in WSNs. / Rao, Vijay S.; Koppal, M.; Prasad, R. Venkatesha; Prabhakar, TV; Sarkar, C.; Niemegeers, Ignas.

35th annual International Conference on Computer Communications, IEEE INFOCOM 2016. Piscataway : IEEE, 2016. p. 1-9.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Rao, VS, Koppal, M, Prasad, RV, Prabhakar, TV, Sarkar, C & Niemegeers, I 2016, Murphy loves CI: Unfolding and Improving Constructive Interference in WSNs. in 35th annual International Conference on Computer Communications, IEEE INFOCOM 2016. IEEE, Piscataway, pp. 1-9, 35th annual IEEE International Conference on Computer Networks, IEEE INFOCOM 2016, San Francisco, United States, 10/04/16. https://doi.org/10.1109/INFOCOM.2016.7524539

APA

Rao, V. S., Koppal, M., Prasad, R. V., Prabhakar, TV., Sarkar, C., & Niemegeers, I. (2016). Murphy loves CI: Unfolding and Improving Constructive Interference in WSNs. In 35th annual International Conference on Computer Communications, IEEE INFOCOM 2016 (pp. 1-9). Piscataway: IEEE. https://doi.org/10.1109/INFOCOM.2016.7524539

Vancouver

Rao VS, Koppal M, Prasad RV, Prabhakar TV, Sarkar C, Niemegeers I. Murphy loves CI: Unfolding and Improving Constructive Interference in WSNs. In 35th annual International Conference on Computer Communications, IEEE INFOCOM 2016. Piscataway: IEEE. 2016. p. 1-9 https://doi.org/10.1109/INFOCOM.2016.7524539

Author

Rao, Vijay S. ; Koppal, M. ; Prasad, R. Venkatesha ; Prabhakar, TV ; Sarkar, C. ; Niemegeers, Ignas. / Murphy loves CI : Unfolding and Improving Constructive Interference in WSNs. 35th annual International Conference on Computer Communications, IEEE INFOCOM 2016. Piscataway : IEEE, 2016. pp. 1-9

BibTeX

@inproceedings{1d932d7fdd60472193390053afc37072,
title = "Murphy loves CI: Unfolding and Improving Constructive Interference in WSNs",
abstract = "Constructive Interference (CI) phenomenon has been exploited by Glossy, a mechanism for low-latency and reliable network flooding and time synchronization for wireless sensor networks. Recently, CI has also been used for other applications such as data collection and multicasting in static and mobile WSNs. These applications base their working on the high reliability promised by Glossy regardless of the physical conditions of deployment, number of nodes in the network, and unreliable wireless channels that may be detrimental for CI. There are several works that study the working of CI, but they present inconsistent views. We study CI from a receiver's viewpoint, list factors that affect CI and also specify how and why they affect. We validate our arguments with results from extensive and rigorous experimentation in real-world settings. This paper presents comprehensive insights into CI phenomenon. With this understanding, we improve the performance of CI through an energy-efficient and distributed algorithm. We cause destructive interference on a designated byte to provide negative feedback. We leverage this to adapt transmission powers. Compared to Glossy, we achieve 25{\%} lesser packet losses while using only half of its transmission power.",
keywords = "Radio transmitters, Receivers, Interference, Wireless sensor networks, Synchronization, Reliability, Wireless communication",
author = "Rao, {Vijay S.} and M. Koppal and Prasad, {R. Venkatesha} and TV Prabhakar and C. Sarkar and Ignas Niemegeers",
note = "Accepted Author Manuscript",
year = "2016",
doi = "10.1109/INFOCOM.2016.7524539",
language = "English",
pages = "1--9",
booktitle = "35th annual International Conference on Computer Communications, IEEE INFOCOM 2016",
publisher = "IEEE",
address = "United States",

}

RIS

TY - GEN

T1 - Murphy loves CI

T2 - Unfolding and Improving Constructive Interference in WSNs

AU - Rao, Vijay S.

AU - Koppal, M.

AU - Prasad, R. Venkatesha

AU - Prabhakar, TV

AU - Sarkar, C.

AU - Niemegeers, Ignas

N1 - Accepted Author Manuscript

PY - 2016

Y1 - 2016

N2 - Constructive Interference (CI) phenomenon has been exploited by Glossy, a mechanism for low-latency and reliable network flooding and time synchronization for wireless sensor networks. Recently, CI has also been used for other applications such as data collection and multicasting in static and mobile WSNs. These applications base their working on the high reliability promised by Glossy regardless of the physical conditions of deployment, number of nodes in the network, and unreliable wireless channels that may be detrimental for CI. There are several works that study the working of CI, but they present inconsistent views. We study CI from a receiver's viewpoint, list factors that affect CI and also specify how and why they affect. We validate our arguments with results from extensive and rigorous experimentation in real-world settings. This paper presents comprehensive insights into CI phenomenon. With this understanding, we improve the performance of CI through an energy-efficient and distributed algorithm. We cause destructive interference on a designated byte to provide negative feedback. We leverage this to adapt transmission powers. Compared to Glossy, we achieve 25% lesser packet losses while using only half of its transmission power.

AB - Constructive Interference (CI) phenomenon has been exploited by Glossy, a mechanism for low-latency and reliable network flooding and time synchronization for wireless sensor networks. Recently, CI has also been used for other applications such as data collection and multicasting in static and mobile WSNs. These applications base their working on the high reliability promised by Glossy regardless of the physical conditions of deployment, number of nodes in the network, and unreliable wireless channels that may be detrimental for CI. There are several works that study the working of CI, but they present inconsistent views. We study CI from a receiver's viewpoint, list factors that affect CI and also specify how and why they affect. We validate our arguments with results from extensive and rigorous experimentation in real-world settings. This paper presents comprehensive insights into CI phenomenon. With this understanding, we improve the performance of CI through an energy-efficient and distributed algorithm. We cause destructive interference on a designated byte to provide negative feedback. We leverage this to adapt transmission powers. Compared to Glossy, we achieve 25% lesser packet losses while using only half of its transmission power.

KW - Radio transmitters

KW - Receivers

KW - Interference

KW - Wireless sensor networks

KW - Synchronization

KW - Reliability

KW - Wireless communication

U2 - 10.1109/INFOCOM.2016.7524539

DO - 10.1109/INFOCOM.2016.7524539

M3 - Conference contribution

SP - 1

EP - 9

BT - 35th annual International Conference on Computer Communications, IEEE INFOCOM 2016

PB - IEEE

CY - Piscataway

ER -

ID: 9851726