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Automotive Synthetic Aperture Radar System Based on 24 GHz Series Sensors

  • Fabian HarrerEmail author
  • Florian Pfeiffer
  • Andreas Löffler
  • Thomas Gisder
  • Erwin Biebl
Conference paper
Part of the Lecture Notes in Mobility book series (LNMOB)

Abstract

This paper presents a Synthetic Aperture Radar (SAR) system for automotive applications. The focus is on the use of current series-sensor technology. Typical sensors’ parameters are discussed and their effect on SAR image quality is displayed. A complete model for automotive SAR calculation is also presented. Critical properties of SAR in combination with automotive setups are illustrated. Measurements and simulations for a parking-lot scenario created with that model are shown. The system is able to distinguish between cars and parking slots.

Keywords

SAR Radar ISM band Azimuth resolution 

Notes

Acknowledgements

The research leading to these results was conducted during a cooperation project between perisens GmbH, Continental, Chassis and Safety Division, ADAS Business Unit and Volkswagen Aktiengesellschaft.

References

  1. Cumming I, Wong F (2005) Digital Processing of Synthetic Aperture Radar Data: Algorithms and Implementation, ser. Artech House remote sensing library. Artech House, no. Bd. 1Google Scholar
  2. Gerbl F (2008) Evaluation of wide beam, short-range synthetic aperture radar imaging: Techn Univ Diss–München, 2007. Berlin: Logos-VerlGoogle Scholar
  3. Gorham L A, Moore L J (2010) SAR image formation toolbox for MATLAB, pp. 769 906–769 906–13, http://dx.doi.org/10.1117/12.855375
  4. Iqbal H, Sajjad M, Mueller M, Waldschmidt C (2015) SAR imaging in an automotive scenario. In: 2015 IEEE 15th Mediterranean microwave symposium (MMS), pp. 1–4Google Scholar
  5. Klausing H, Holpp W (1999) Radar mit realer und synthetischer Apertur: Konzeption und Realisierung. De GruyterGoogle Scholar
  6. Meta A (2006) Signal processing of FMCW Synthetic Aperture Radar data. [S.l.]: [s.n.]Google Scholar
  7. Mure-Dubois J, Vincent F, Bonacci D, Sonar and radar SAR processing for parking lot detection. In: 2011 12th International radar symposium (IRS), pp. 471–476Google Scholar
  8. Reichthalhammer T (2012) Ein Radar mit synthetischer Apertur für den Nahbereich: Techn Univ Diss–München, 1st edn, ser. Ingenieurwissenschaften. München: Dr. HutGoogle Scholar
  9. Skolnik M (2008) Radar Handbook, Third Edition, ser. Electronics electrical engineering, McGraw-Hill EducationGoogle Scholar
  10. Winner H, Hakuli S, Wolf G (2009) Handbuch Fahrerassistenzsysteme: Grundlagen, Komponenten und Systeme für aktive Sicherheit und Komfort: mit 550 Abbildungen und 45 Tabellen, ser. ATZ-MTZ-Fachbuch. Vieweg + TeubnerGoogle Scholar
  11. Wu H, Zwick T (2009) Automotive SAR for parking lot detection. In: 2009 German microwave conference, pp. 1–8Google Scholar
  12. Wu H, Zwirello L, Li X, Reichardt L, Zwick T (2011) Motion compensation with one-axis gyroscope and two-axis accelerometer for automotive sar. In: 2011 German microwave conference, pp. 1–4Google Scholar

Copyright information

© Springer International Publishing AG 2018

Authors and Affiliations

  • Fabian Harrer
    • 1
    Email author
  • Florian Pfeiffer
    • 1
  • Andreas Löffler
    • 2
  • Thomas Gisder
    • 3
  • Erwin Biebl
    • 4
  1. 1.Perisens GmbHGarching Bei MünchenGermany
  2. 2.ADC Automotive Distance Control Systems GmbHLindauGermany
  3. 3.Volkswagen AktiengesellschaftWolfsburgGermany
  4. 4.Technical University of MunichMunichGermany

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