"EVALUATION OF THE POTENTIAL ACCURACY OF THE PULSED RADIO SIGNALS SOURCE COORDINATE DETERMINATION BY THE POSITIONING SYSTEM USING A SINGLE UAV-SENSOR "
DOI:
https://doi.org/10.31489/2020No1/119-126Keywords:
coordinate-informative parameter, unmanned aerial vehicles sensor, pulsed radio signals sources, the range-difference location method.Abstract
"An approach to determining the coordinates of pulsed radio signals sources by the positioning system in the application of a single unmanned aerial vehicles sensor is shown in this article. The range-difference location method allows to determinate an informative coordinate parameter without retransmission and internal synchronization of receiving points. The result is achieved by improving the well-known scientific and methodological apparatus with considering some features of the operation mode of pulsed radio signals sources. Presenting results of the simulation allow to estimate the influence of main input factors on the potential accuracy of the pulsed radio signal source coordinate determination. "
References
"1 Li C., Weihua Z. Hybrid tdoa/aoa mobile user location for wideband CDMA cellular systems. IEEE Trans. Wireless Commun. 2002, Vol. 1, No. 3, pp. 439 – 447.
Dempster A.G. Dilution of Precision in Angle-of-Arrival Positioning Systems. Electron. Lett. 2006, Vol. 42, No.5, pp. 291 - 292.
Kułakowski P., Vales-Alonso J., Egea-López E., Ludwin W., García-Haro J. Angle-of-arrival localization based on antenna arrays for wireless sensor networks. COMPUT ELECTR ENG. 2010, Vol. 36, No. 6, pp. 1181 - 1186.
Xu J., Ma M., Choi L.L. AOA Cooperative Position Localization. Proceeding of the IEEE Global Telecommunications Conference. 2008, pp. 3751- 3755.
Du H.J., P.Y. Lee. Technical Memorandum, DRDC Ottawa TM 2004-256, 2004, 24 p.
So H.C., Hui S.P. Constrained location algorithm using TDOA measurements. IEICE T FUND ELECTR. 2003, Vol. E86-A, No. 12, pp. 3291- 3293.
So H.C., Ching P.C., Chan Y.T. A new algorithm for explicit adaptation of time delay. IEEE T SIGNAL PROCES. 1994, Vol. 42, No.7, pp. 1816 – 1820.
Featherstone W., Strangeways H. Mobile transmitter AOA estimation under multipath conditions using an MLE based super resolution algorithm and comparison with weighted spectrum methods. Proceeding of the IEE Colloquium Novel Methods of Location and Tracking of Cellular Mobiles and their System. 1999, pp. 4 - 4, doi: 10.1049/ic:19990241.
Pages-Zamora A., Vidal J., Brooks D.H. Closed-form solution for positioning based on angle of arrival measurements. Proceeding of the 13th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications. 2002, Vol. 4, pp. 1522 - 1526.
Ho K., Chan Y. Solution and performance analysis of geolocation by TDOA. IEEE T AERO ELEC SYS. 1993, Vol. 29, No. 4, pp. 1311 - 1322.
Ho K.C., Chan Y.T. Geolocation of a known altitude object from TDOA and FDOA measurements. IEEE T AERO ELEC SYS. 1997, Vol. 33, No.3, pp. 770 - 783.
Hashemi-Sakhtsari A., Dogancay K. Recursive Least Squares Solution to Source Tracking using Time Difference of Arrival. Proceeding of the IEEE International Conference on Acoustics, Speech and Signal Processing. 2004, Vol. 2, pp. 385 - 388.
Lee S.C., Lee W.R., You K.H. TDoA Based UAV Localization Using Dual-EKF Algorithm. In: Ślęzak D., Kim T., Stoica A., Kang BH. (eds). Control and Automation. 2009, Vol. 65, pp. 47 - 54.
Venkatraman S., Caffery J.J. Hybrid TOA/AOA Techniques for Mobile Location in Non-Lineof-Sight Environments. Proceeding of the IEEE Conference Wireless Communications and Networking, 2004, Vol. 1, pp. 274 - 278.
Cheung K.W., So H.C., Ma W.K., Chan Y.T. A constrained least squares approach to mobile positioning: algorithms and optimality. EURASIP J ADV SIG PR. 2006, Vol. 1, pp. 1 - 23.
Baldychev M.T., Pivkin I.G., Gaychuk Yu.N., Pechurin V.V., Laptev I.V. A method for determining the location of sources of pulsed radio signals. Russian Federation Patent No. 2695321, 2019, 10 p.
Demichev I.V., Yevgeniev D.N., Shaidulin Z.F. Estimation of coordinates of object in view of influence of the geometrical factor. Journal Science Intensive Technologies. 2010, No. 9, pp. 44 - 50.
Pivkin I.G., Pechurin V.V., Baldychev M.T., et al. Model of a one – position system for determining the location of radio emission sources. Russian Federation Certificate of State Registration of a Computer Program No.2019613634, 2019, 1 p.
"
