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dRTI: directional radio tomographic imaging

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dRTI: directional radio tomographic imaging. / Wei, Bo; Varshney, Ambuj; Patwari, Neal et al.
IPSN 2015: Proceedings of the 14th International Conference on Information Processing in Sensor Networks. New York: ACM, 2015. p. 166-177.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Wei, B, Varshney, A, Patwari, N, Hu, W, Voigt, T & Chou, CT 2015, dRTI: directional radio tomographic imaging. in IPSN 2015: Proceedings of the 14th International Conference on Information Processing in Sensor Networks. ACM, New York, pp. 166-177, 14th International Conference on Information Processing in Sensor Networks - Seattle, United States, Seattle, Washington, United States, 13/04/15. https://doi.org/10.1145/2737095.2737118

APA

Wei, B., Varshney, A., Patwari, N., Hu, W., Voigt, T., & Chou, C. T. (2015). dRTI: directional radio tomographic imaging. In IPSN 2015: Proceedings of the 14th International Conference on Information Processing in Sensor Networks (pp. 166-177). ACM. https://doi.org/10.1145/2737095.2737118

Vancouver

Wei B, Varshney A, Patwari N, Hu W, Voigt T, Chou CT. dRTI: directional radio tomographic imaging. In IPSN 2015: Proceedings of the 14th International Conference on Information Processing in Sensor Networks. New York: ACM. 2015. p. 166-177 doi: 10.1145/2737095.2737118

Author

Wei, Bo ; Varshney, Ambuj ; Patwari, Neal et al. / dRTI: directional radio tomographic imaging. IPSN 2015: Proceedings of the 14th International Conference on Information Processing in Sensor Networks. New York : ACM, 2015. pp. 166-177

Bibtex

@inproceedings{914ac73ef02d422e94ec83d3f3d35b2f,
title = "dRTI: directional radio tomographic imaging",
abstract = "Radio tomographic imaging (RTI) enables device free localisation of people and objects in many challenging environments and situations. Its basic principle is to detect the changes in the statistics of radio signals due to the radio link obstruction by people or objects. However, the localisation accuracy of RTI suffers from complicated multipath propagation behaviours in radio links. We propose to use inexpensive and energy efficient electronically switched directional (ESD) antennas to improve the quality of radio link behaviour observations, and therefore, the localisation accuracy of RTI. We implement a directional RTI (dRTI) system to understand how directional antennas can be used to improve RTI localisation accuracy. We also study the impact of the choice of antenna directions on the localisation accuracy of dRTI and propose methods to effectively choose informative antenna directions to improve localisation accuracy while reducing overhead. Furthermore, we analyse radio link obstruction performance in both theory and simulation, as well as false positives and false negatives of the obstruction measurements to show the superiority of the directional communication for RTI. We evaluate the performance of dRTI in diverse indoor environments and show that dRTI significantly outperforms the existing RTI localisation methods based on omni-directional antennas.",
author = "Bo Wei and Ambuj Varshney and Neal Patwari and Wen Hu and Thiemo Voigt and Chou, {Chun Tung}",
year = "2015",
month = apr,
day = "13",
doi = "10.1145/2737095.2737118",
language = "Undefined/Unknown",
isbn = "9781450334754",
pages = "166--177",
booktitle = "IPSN 2015: Proceedings of the 14th International Conference on Information Processing in Sensor Networks",
publisher = "ACM",
note = "14th International Conference on Information Processing in Sensor Networks - Seattle, United States ; Conference date: 13-04-2015 Through 16-04-2015",

}

RIS

TY - GEN

T1 - dRTI: directional radio tomographic imaging

AU - Wei, Bo

AU - Varshney, Ambuj

AU - Patwari, Neal

AU - Hu, Wen

AU - Voigt, Thiemo

AU - Chou, Chun Tung

PY - 2015/4/13

Y1 - 2015/4/13

N2 - Radio tomographic imaging (RTI) enables device free localisation of people and objects in many challenging environments and situations. Its basic principle is to detect the changes in the statistics of radio signals due to the radio link obstruction by people or objects. However, the localisation accuracy of RTI suffers from complicated multipath propagation behaviours in radio links. We propose to use inexpensive and energy efficient electronically switched directional (ESD) antennas to improve the quality of radio link behaviour observations, and therefore, the localisation accuracy of RTI. We implement a directional RTI (dRTI) system to understand how directional antennas can be used to improve RTI localisation accuracy. We also study the impact of the choice of antenna directions on the localisation accuracy of dRTI and propose methods to effectively choose informative antenna directions to improve localisation accuracy while reducing overhead. Furthermore, we analyse radio link obstruction performance in both theory and simulation, as well as false positives and false negatives of the obstruction measurements to show the superiority of the directional communication for RTI. We evaluate the performance of dRTI in diverse indoor environments and show that dRTI significantly outperforms the existing RTI localisation methods based on omni-directional antennas.

AB - Radio tomographic imaging (RTI) enables device free localisation of people and objects in many challenging environments and situations. Its basic principle is to detect the changes in the statistics of radio signals due to the radio link obstruction by people or objects. However, the localisation accuracy of RTI suffers from complicated multipath propagation behaviours in radio links. We propose to use inexpensive and energy efficient electronically switched directional (ESD) antennas to improve the quality of radio link behaviour observations, and therefore, the localisation accuracy of RTI. We implement a directional RTI (dRTI) system to understand how directional antennas can be used to improve RTI localisation accuracy. We also study the impact of the choice of antenna directions on the localisation accuracy of dRTI and propose methods to effectively choose informative antenna directions to improve localisation accuracy while reducing overhead. Furthermore, we analyse radio link obstruction performance in both theory and simulation, as well as false positives and false negatives of the obstruction measurements to show the superiority of the directional communication for RTI. We evaluate the performance of dRTI in diverse indoor environments and show that dRTI significantly outperforms the existing RTI localisation methods based on omni-directional antennas.

U2 - 10.1145/2737095.2737118

DO - 10.1145/2737095.2737118

M3 - Conference contribution/Paper

SN - 9781450334754

SP - 166

EP - 177

BT - IPSN 2015: Proceedings of the 14th International Conference on Information Processing in Sensor Networks

PB - ACM

CY - New York

T2 - 14th International Conference on Information Processing in Sensor Networks - Seattle, United States

Y2 - 13 April 2015 through 16 April 2015

ER -