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ISSN: 1023-5086

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ISSN: 1023-5086

Scientific and technical

Opticheskii Zhurnal

A full-text English translation of the journal is published by Optica Publishing Group under the title “Journal of Optical Technology”

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A novel localization mode with a sub-meter precision for sensor networks

For Russian citation (Opticheskii Zhurnal):

X. D. Yan, B. Wang, H. Peng, Y. X. Chen A novel localization mode with a sub-meter precision for sensor networks [на англ. яз.] // Оптический журнал. 2014. Т. 81. № 10. С. 56–60.

 

X. D. Yan, B. Wang, H. Peng, Y. X. Chen A novel localization mode with a sub-meter precision for sensor networks [in English] // Opticheskii Zhurnal. 2014. V. 81. № 10. P. 56–60.

For citation (Journal of Optical Technology):

X. D. Yan, B. Wang, H. Peng, and Y. X. Chen, "A novel localization mode with a sub-meter precision for sensor networks," Journal of Optical Technology. 81(10), 599-602 (2014). https://doi.org/10.1364/JOT.81.000599

Abstract:

A novel localization scheme by combining grid and light with mobile localization policy for sensor networks has been designed. The scheme employs a moving location assistant with a band of light. The high localization accuracy can be achieved without expensive hardware on the sensor nodes. The scheme exhibits significant advantages compared with other traditional methods. In particular, such a low-cost scheme does not require any infrastructure or additional hardware for sensor nodes.

Keywords:

localization; sensor networks

OCIS codes: 040.0040

References:

1. Zhang L.Q., Cheng Q., Wang Y.G., and Zeadally S. A Novel Distributed Sensor Positioning System Using the Dual of Target Tracking // IEEE Transactions On Computers. 2008. V. 12(3). P. 246–260.
2. Baek J., Fisher P.S., Minho J., Chen H.H. A reliable overlay video transport protocol for multicast agents in wireless mesh networks // Intern. J. Communication Systems. 2012. V. 25(5). P. 1002−1007.
3. Zhang J., Zhang Z.Y., Luo, H.Y. , Wang W., Yu G.D. Initial spectrum access control with QoS protection for active users in cognitive wireless networks // Intern. J. Communication Systems. 2012. V. 25(5). P. 1287−1294.
4. Jang K.W. Meta-heuristic algorithms for channel scheduling problem in wireless sensor networks // Intern. J. Communication Systems. 2012. V. 25(4). P. 1267−1273.
5. Khan A.U.R., Madani S.A. Clustering-based power-controlled routing for mobile wireless sensor networks // Intern. J. Communication Systems. 2012. V. 25(4). P. 1280−1285.
6. Borenovic M., Neskovic A., Budimir D. Multi-system-multi-operator localization in PLMN using neural networks // Intern. J. Communication Systems. 2012. V. 25(2). P. 1252−1258.
7. Ye J., Wang J. X., Huang J.W. A cross-layer TCP for providing fairness in wireless mesh networks // Intern. J. Communication Systems. 2011. V. 24(12). P. 1238−1243.
8. Li D.S., Lei M., Chen J., and Sun T. Wireless sensor network positioning scheme with ring overlapping based on hybrid access of received signal strength indication // WiCOM’06 , 2006. P. 1–4.
9. Bahl P. and Padmanabhan V.N. RADAR: An in-building RF-based user location and tracking system // Proc. IEEE INFOCOM’00, 2000. P. 775–784.
10. Biswas P. and Ye Y. Semidefinite programming for ad hoc wireless sensor network localization // IPSN’04, Apr. 2004, P. 76–79.
11. Bulusu N., Heidemann J., and Estrin D. GPS-less Low Cost Outdoor Localization for Very Small Devices // IEEE Personal Communications Magazine. 2000. V. 12(2). P. 123−129.
12. Niculescu D., Nath B. DV-based Positioning in Ad Hoc Networks // J. Telecommunication Systems. 2003. V. 22 (1/4). P. 267–280.
13. Sugano M. Indoor Localization System using RSSI Measurement of Wireless Sensor Network Based on Zigbee Standard // Wireless Sensor Network / London: Chapman & Hall. 2006.
14. Barsocchi P. A Novel Approach to Indoor RSSI Localization by Automatic Calibration of the Wireless Propagation Model // Proc. IEEE VTC Spring, April 2009, Temecula, CA., USA. P. 1–5.