GAZELE - A Highly Scalable Radar Target Stimulator

Research output: Contribution to conference(Old data) Lecture or PresentationResearch

Abstract

Gazele - A Highly Scalable Radar Target Stimulator

Radar sensors are one of the key information sources for advances driving assistance systems (ADAS). The application of ADAS in the framework of autonomous driving imposes certain requirements on testing such systems. For example hardware in the loop tests for focusing on complex scenarios are necessary for comprehensive validation of these systems. To achieve this goals radar target stimulators which can provide large numbers of targets, cover the range close to the sensor and are independent of the radar waveform are required.

In the Gazele project an analogue system architecture has been developed and built, scalable both in the number of possible targets and covered range. Also provisions for further enhancements like interferer stimulation and range extensions with DRFM systems for large range coverage have been included.

At first the presentation will provide an introduction to the requirements and techniques for scenario based radar target stimulation. Thereafter the system design is discussed and measurement results from the first prototype are presented. An outlook to further developments and follow-up projects will conclude the talk.
Original languageEnglish
Publication statusPublished - 18 Oct 2016
Event4th Workshop of the Radio Frequency Engineering Working Group of the Austrian Research Association - Holiday Inn/Congress Center Villach, Villach, Austria
Duration: 17 Oct 201618 Oct 2016
http://www.jrz-interact.at/files/2016/10/Program_HFT_WS_2016.pdf

Workshop

Workshop4th Workshop of the Radio Frequency Engineering Working Group of the Austrian Research Association
Abbreviated titleARGE HFT Workshop 2016
CountryAustria
CityVillach
Period17/10/1618/10/16
Internet address

Fingerprint

Radar
Sensors
Systems analysis
Hardware
Testing

Keywords

  • Radar
  • Autonome Fahrzeuge

Fields of Expertise

  • Information, Communication & Computing

Treatment code (Nähere Zuordnung)

  • Experimental

Cite this

Gruber, A., Gadringer, M. E., Schreiber, H., & Bösch, W. (2016). GAZELE - A Highly Scalable Radar Target Stimulator. 4th Workshop of the Radio Frequency Engineering Working Group of the Austrian Research Association , Villach, Austria.

GAZELE - A Highly Scalable Radar Target Stimulator. / Gruber, Andreas; Gadringer, Michael Ernst; Schreiber, Helmut; Bösch, Wolfgang.

2016. 4th Workshop of the Radio Frequency Engineering Working Group of the Austrian Research Association , Villach, Austria.

Research output: Contribution to conference(Old data) Lecture or PresentationResearch

Gruber, A, Gadringer, ME, Schreiber, H & Bösch, W 2016, 'GAZELE - A Highly Scalable Radar Target Stimulator' 4th Workshop of the Radio Frequency Engineering Working Group of the Austrian Research Association , Villach, Austria, 17/10/16 - 18/10/16, .
Gruber A, Gadringer ME, Schreiber H, Bösch W. GAZELE - A Highly Scalable Radar Target Stimulator. 2016. 4th Workshop of the Radio Frequency Engineering Working Group of the Austrian Research Association , Villach, Austria.
Gruber, Andreas ; Gadringer, Michael Ernst ; Schreiber, Helmut ; Bösch, Wolfgang. / GAZELE - A Highly Scalable Radar Target Stimulator. 4th Workshop of the Radio Frequency Engineering Working Group of the Austrian Research Association , Villach, Austria.
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abstract = "Gazele - A Highly Scalable Radar Target StimulatorRadar sensors are one of the key information sources for advances driving assistance systems (ADAS). The application of ADAS in the framework of autonomous driving imposes certain requirements on testing such systems. For example hardware in the loop tests for focusing on complex scenarios are necessary for comprehensive validation of these systems. To achieve this goals radar target stimulators which can provide large numbers of targets, cover the range close to the sensor and are independent of the radar waveform are required.In the Gazele project an analogue system architecture has been developed and built, scalable both in the number of possible targets and covered range. Also provisions for further enhancements like interferer stimulation and range extensions with DRFM systems for large range coverage have been included.At first the presentation will provide an introduction to the requirements and techniques for scenario based radar target stimulation. Thereafter the system design is discussed and measurement results from the first prototype are presented. An outlook to further developments and follow-up projects will conclude the talk.",
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T1 - GAZELE - A Highly Scalable Radar Target Stimulator

AU - Gruber, Andreas

AU - Gadringer, Michael Ernst

AU - Schreiber, Helmut

AU - Bösch, Wolfgang

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Y1 - 2016/10/18

N2 - Gazele - A Highly Scalable Radar Target StimulatorRadar sensors are one of the key information sources for advances driving assistance systems (ADAS). The application of ADAS in the framework of autonomous driving imposes certain requirements on testing such systems. For example hardware in the loop tests for focusing on complex scenarios are necessary for comprehensive validation of these systems. To achieve this goals radar target stimulators which can provide large numbers of targets, cover the range close to the sensor and are independent of the radar waveform are required.In the Gazele project an analogue system architecture has been developed and built, scalable both in the number of possible targets and covered range. Also provisions for further enhancements like interferer stimulation and range extensions with DRFM systems for large range coverage have been included.At first the presentation will provide an introduction to the requirements and techniques for scenario based radar target stimulation. Thereafter the system design is discussed and measurement results from the first prototype are presented. An outlook to further developments and follow-up projects will conclude the talk.

AB - Gazele - A Highly Scalable Radar Target StimulatorRadar sensors are one of the key information sources for advances driving assistance systems (ADAS). The application of ADAS in the framework of autonomous driving imposes certain requirements on testing such systems. For example hardware in the loop tests for focusing on complex scenarios are necessary for comprehensive validation of these systems. To achieve this goals radar target stimulators which can provide large numbers of targets, cover the range close to the sensor and are independent of the radar waveform are required.In the Gazele project an analogue system architecture has been developed and built, scalable both in the number of possible targets and covered range. Also provisions for further enhancements like interferer stimulation and range extensions with DRFM systems for large range coverage have been included.At first the presentation will provide an introduction to the requirements and techniques for scenario based radar target stimulation. Thereafter the system design is discussed and measurement results from the first prototype are presented. An outlook to further developments and follow-up projects will conclude the talk.

KW - Radar

KW - Autonome Fahrzeuge

M3 - (Old data) Lecture or Presentation

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