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Verification of ADS-B positioning by direction of arrival estimation

Published online by Cambridge University Press:  22 February 2012

Christoph Reck ,
Max S. Reuther ,
Alexander Jasch  and
Lorenz-Peter Schmidt
Christoph Reck*
Affiliation:
Chair for High Frequency Technology, FAU Erlangen-Nuremberg, Cauerstrasse 9, 91058 Erlangen, Germany. Phone: +49 9131 8525472
Max S. Reuther
Affiliation:
Chair for High Frequency Technology, FAU Erlangen-Nuremberg, Cauerstrasse 9, 91058 Erlangen, Germany. Phone: +49 9131 8525472
Alexander Jasch
Affiliation:
Institute of Flight Guidance, TU Braunschweig, Hermann-Blenk-Str. 27, 38108 Braunschweig, Germany
Lorenz-Peter Schmidt
Affiliation:
Chair for High Frequency Technology, FAU Erlangen-Nuremberg, Cauerstrasse 9, 91058 Erlangen, Germany. Phone: +49 9131 8525472
*
Corresponding author: C. Reck Email: christoph@lhft.eei.uni-erlangen.de
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Abstract

ADS-B provides convenient means of air traffic control (ATC) for its low cost and simple ground station hardware. In a low percentage of cases, aircraft positions transmitted via ADS-B are error prone due to e.g. faulty wiring with onboard navigation systems. In the proposed approach, direction of arrival (DOA) estimation is used to verify ADS-B airborne positions. The potential positioning error of ADS-B is thereby evaluated by comparing DOA estimates to DOA values calculated from ADS-B references and the sensor position and orientation. To prove the accuracy of the applied DOA estimation sensor, an additional measurement campaign using a dedicated measurement aircraft has been conducted.

Keywords

Radar applicationsSmart antennasDirection of arrival estimation
Type
Research Papers
Information
International Journal of Microwave and Wireless Technologies , Volume 4 , Special Issue 2: Special issue on Surveillance Systems for Air Navigation Services , April 2012 , pp. 181 - 186
Copyright
Copyright © Cambridge University Press and the European Microwave Association 2012

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References

REFERENCES

[1]Rekkas, C.; Rees, Melvyn: Towards ADS-B implementation in Europe, in ESAV'08, 2008, pp. 7–4.Google Scholar
[2]Cedrini, V.; Zacchei, C.; Zampognaro, V.: ADS-B 1090ES implementation: the CRISTALMED project, in ESAV'08, 2008, pp. 7–4.Google Scholar
[3]Barsheshat, Abraham A.: Implementation of ADS-B systems – benefits and considerations, in Enhanced Surveillance of Aircraft and Vehicles Conference, 2011, pp. 7–4.Google Scholar
[4]Reck, C.; Berold, U.; Schmidt, L.-P.: High precision DOA estimation of SSR transponder signals, in IEEE International Conference on Wireless Technology and Systems, 2010, pp. 7–4.Google Scholar
[5]Reck, C.; Berold, U.; Schmidt, L.-P.: Robust DOA estimation of SSR signals for aircraft positioning, in IEEE Radio Wireless Week, 2011, 8, pp. 7376.Google Scholar
[6]Reck, C.; Berold, U.; Schuer, J.; Schmidt, L.-P.: Direction of arrival sensor calibration based on ADS-B airborne position telegrams, in European Radar Conference, 2009, pp. 7780.Google Scholar
[7]Haardt, M.; Roemer, F.: Enhancements of unitary esprit for non-circular sources, in IEEE International Conference on Acoustics, Speech and Signal Processing, 2004, pp. 707–704.Google Scholar
[8]DO-260A: Minimum operational performance standards for 1090 MHz extended squitter automatic dependent surveillance-broadcast (ADS-B) and traffic information services – broadcast (TIS-B). Technical Report, RTCA, Inc., 2003.Google Scholar
[9]Levanon, N.: Lowest GDOP in 2-D scenarios. IEE Proc.-Radar, Sonar Navig., 147 (2000), 149155.CrossRefGoogle Scholar
[10]Reck, C.; Reuther, M.S.; Berold, U.; Schmidt, L.-P.: Spatial filtering and equalization for SSR signal detection in a multipath environment, in German Microwave Conference, 2011, pp. 7–4.Google Scholar