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Multistatic GNSS Receiver Array for Passive Air Surveillance

  • Stefan Wachtl ORCID logo EMAIL logo , Volker Koch , Robert Westphal und Lorenz-Peter Schmidt
Veröffentlicht/Copyright: 12. Februar 2016
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Abstract

The performance of a passive air surveillance sensor based on Global Navigation Satellite Systems (GNSS) is mainly limited by the receiver noise efficiency, the achievable signal processing gain and the radar cross section (RCS) of an airplane. For surveillance applications large detection ranges as well as a high probability of detection are crucial parameters. Due to the very low GNSS signal powers received on the earth’s surface, high radar cross sections are mandatory to achieve detection ranges for airplanes at some kilometers distance. This paper will discuss a multistatic transmitter and receiver arrangement, which is indispensable to get a reasonable detection rate with respect to a hemispheric field of view. The strong performance dependency of such a sensor on the number of transmitters and receivers will be shown by means of some exemplary simulation results.

Keywords: multipath sensor; passive radar; air surveillance; GNSS

References

[1] S. Wachtl, V. Koch, and L.-P. Schmidt, “Multipath sensor based on GNSS for passive airborne surveillanve,” EuRAD 2013, Oct. 2013.Suche in Google Scholar

[2] S. Wachtl, V. Koch, and L.-P. Schmidt, “Global navigation satellite systems in passive surveillance applications,” ESAV 2014, Sep. 2014.10.1109/TIWDC-ESAV.2014.6945464Suche in Google Scholar

[3] C. Y. Pui, M. Trinkle, and B. Ng, “Aircraft detection experimental results for GPS bistatic radar using phased-array receiver,” IGNSS Symposium 2013, July 2013.Suche in Google Scholar

[4] CCIR, “Radio emission from natural sources in the radio frequency range above about 50 MHz,” Annex to Vol. V, Rep. 720–722, 1990.Suche in Google Scholar

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[8] North American Aerospace Defense Command (NORAD), Joint Space Operations Center (JSPOC), https://www.space-track.org/.Suche in Google Scholar

Received: 2015-6-22
Published Online: 2016-2-12
Published in Print: 2016-3-1

©2016 by De Gruyter

Artikel in diesem Heft

  1. Frontmatter
  3. Hex-Sided Rounded Dipole Antenna (HSRDA) For UWB Applications
  4. Investigation on Ring/Split-Ring Loaded Bow-Tie Antenna for Compactness and Notched-Band
  5. Design of Compact Penta-Band and Hexa-Band Microstrip Antennas
  6. A Novel Triangular Shaped UWB Fractal Antenna Using Circular Slot
  7. Printed Notched Antenna with Long Meandered Line for Eight-Band LTE/GSM/UMTS Wireless USB Dongle Operation
  8. A Polarization Reconfigurable Aperture-Coupled Microstrip Antenna and Its Binary Array for MIMO
  9. Multi-Antenna Data Collector for Smart Metering Networks with Integrated Source Separation by Spatial Filtering
  10. Multistatic GNSS Receiver Array for Passive Air Surveillance
  11. Outage Probability and Ergodic Capacity of Spectrum-Sharing Systems with MRC Diversity
  12. Compact Diplexer with High Isolation based on Novel Symmetric Double Spiral Resonators
  13. Broadband Microwave Amplifier Design with Lumped Elements
  14. Erratum
  15. Articles with wrong DOI numbers
https://doi.org/10.1515/freq-2015-0135
Schlagwörter für diesen Artikel
multipath sensor; passive radar; air surveillance; GNSS

Artikel in diesem Heft

  1. Frontmatter
  3. Hex-Sided Rounded Dipole Antenna (HSRDA) For UWB Applications
  4. Investigation on Ring/Split-Ring Loaded Bow-Tie Antenna for Compactness and Notched-Band
  5. Design of Compact Penta-Band and Hexa-Band Microstrip Antennas
  6. A Novel Triangular Shaped UWB Fractal Antenna Using Circular Slot
  7. Printed Notched Antenna with Long Meandered Line for Eight-Band LTE/GSM/UMTS Wireless USB Dongle Operation
  8. A Polarization Reconfigurable Aperture-Coupled Microstrip Antenna and Its Binary Array for MIMO
  9. Multi-Antenna Data Collector for Smart Metering Networks with Integrated Source Separation by Spatial Filtering
  10. Multistatic GNSS Receiver Array for Passive Air Surveillance
  11. Outage Probability and Ergodic Capacity of Spectrum-Sharing Systems with MRC Diversity
  12. Compact Diplexer with High Isolation based on Novel Symmetric Double Spiral Resonators
  13. Broadband Microwave Amplifier Design with Lumped Elements
  14. Erratum
  15. Articles with wrong DOI numbers
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