Multifunctional radar sensor for automotive application

Michael Wollitzer; J. Buechler; J. F. Luy; Uwe Siart; E. Schmidhammer; J. Detlefsen; M. Esslinger

doi:10.1109/22.668685

Multifunctional radar sensor for automotive application

Michael Wollitzer, J. Buechler, J. F. Luy, Uwe Siart, E. Schmidhammer, J. Detlefsen, M. Esslinger

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

A multifunctional radar system for vehicles consisting of two modules with a combined bistatic/monostatic arrangement is presented. One module acts as a transceiver, whereas the other is a receiving circuit. The transmitting part radiates a frequency-modulated signal alternately in two orthogonal polarizations. The receiving parts work with different local oscillator (LO) frequencies and detect both polarizations of the scattered signal simultaneously. From the resulting Doppler spectra and a distance measurement, the velocity, tilt angle, height with respect to ground, and the direction of the movement of a vehicle can be derived. From the polarimetric information, a classification of the road condition is possible. In a first approach, the sensor was built in a conventional waveguide technique. The second step was to realize the millimeter-wave circuits of both modules with monolithic silicon millimeter-wave integrated circuit (SIMMWIC) technology. To achieve a flat arrangement, a leaky-wave antenna is developed and coupled to the SIMMWIC's.

Original language	English
Pages (from-to)	701-708
Number of pages	8
Journal	IEEE Transactions on Microwave Theory and Techniques
Volume	46
Issue number	5 PART 2
DOIs	https://doi.org/10.1109/22.668685
State	Published - 1998
Externally published	Yes

Keywords

Active antennas
Leaky-wave antennas
Radar polarimetry
Radar position measurement
Road vehicle radar
SIMMWIC

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10.1109/22.668685

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title = "Multifunctional radar sensor for automotive application",

abstract = "A multifunctional radar system for vehicles consisting of two modules with a combined bistatic/monostatic arrangement is presented. One module acts as a transceiver, whereas the other is a receiving circuit. The transmitting part radiates a frequency-modulated signal alternately in two orthogonal polarizations. The receiving parts work with different local oscillator (LO) frequencies and detect both polarizations of the scattered signal simultaneously. From the resulting Doppler spectra and a distance measurement, the velocity, tilt angle, height with respect to ground, and the direction of the movement of a vehicle can be derived. From the polarimetric information, a classification of the road condition is possible. In a first approach, the sensor was built in a conventional waveguide technique. The second step was to realize the millimeter-wave circuits of both modules with monolithic silicon millimeter-wave integrated circuit (SIMMWIC) technology. To achieve a flat arrangement, a leaky-wave antenna is developed and coupled to the SIMMWIC's.",

keywords = "Active antennas, Leaky-wave antennas, Radar polarimetry, Radar position measurement, Road vehicle radar, SIMMWIC",

author = "Michael Wollitzer and J. Buechler and Luy, \{J. F.\} and Uwe Siart and E. Schmidhammer and J. Detlefsen and M. Esslinger",

note = "Funding Information: Manuscript received October 28, 1997; revised January 29, 1998. This work was supported by the Federal Ministry of Research and Education (BMBF) under Grant 16 SV 417/0. M. Wollitzer, J. Buechler, and J.-F. Luy are with the Daimler-Benz Research Center, D-89011 Ulm, Germany. U. Siart, E. Schmidhammer, and J. Detlefsen are with the Laboratories for High-Frequency Technology, Technische Universit{\"a}t, D-8000 M{\"u}unchen, Germany. M. Esslinger is with the Department of Microwave Techniques, Universit{\"a}t of Ulm, 89081 Ulm, Germany. Publisher Item Identifier S 0018-9480(98)03388-2.",

year = "1998",

doi = "10.1109/22.668685",

language = "English",

volume = "46",

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AU - Wollitzer, Michael

AU - Buechler, J.

AU - Luy, J. F.

AU - Siart, Uwe

AU - Schmidhammer, E.

AU - Detlefsen, J.

AU - Esslinger, M.

N1 - Funding Information: Manuscript received October 28, 1997; revised January 29, 1998. This work was supported by the Federal Ministry of Research and Education (BMBF) under Grant 16 SV 417/0. M. Wollitzer, J. Buechler, and J.-F. Luy are with the Daimler-Benz Research Center, D-89011 Ulm, Germany. U. Siart, E. Schmidhammer, and J. Detlefsen are with the Laboratories for High-Frequency Technology, Technische Universität, D-8000 Müunchen, Germany. M. Esslinger is with the Department of Microwave Techniques, Universität of Ulm, 89081 Ulm, Germany. Publisher Item Identifier S 0018-9480(98)03388-2.

PY - 1998

Y1 - 1998

N2 - A multifunctional radar system for vehicles consisting of two modules with a combined bistatic/monostatic arrangement is presented. One module acts as a transceiver, whereas the other is a receiving circuit. The transmitting part radiates a frequency-modulated signal alternately in two orthogonal polarizations. The receiving parts work with different local oscillator (LO) frequencies and detect both polarizations of the scattered signal simultaneously. From the resulting Doppler spectra and a distance measurement, the velocity, tilt angle, height with respect to ground, and the direction of the movement of a vehicle can be derived. From the polarimetric information, a classification of the road condition is possible. In a first approach, the sensor was built in a conventional waveguide technique. The second step was to realize the millimeter-wave circuits of both modules with monolithic silicon millimeter-wave integrated circuit (SIMMWIC) technology. To achieve a flat arrangement, a leaky-wave antenna is developed and coupled to the SIMMWIC's.

AB - A multifunctional radar system for vehicles consisting of two modules with a combined bistatic/monostatic arrangement is presented. One module acts as a transceiver, whereas the other is a receiving circuit. The transmitting part radiates a frequency-modulated signal alternately in two orthogonal polarizations. The receiving parts work with different local oscillator (LO) frequencies and detect both polarizations of the scattered signal simultaneously. From the resulting Doppler spectra and a distance measurement, the velocity, tilt angle, height with respect to ground, and the direction of the movement of a vehicle can be derived. From the polarimetric information, a classification of the road condition is possible. In a first approach, the sensor was built in a conventional waveguide technique. The second step was to realize the millimeter-wave circuits of both modules with monolithic silicon millimeter-wave integrated circuit (SIMMWIC) technology. To achieve a flat arrangement, a leaky-wave antenna is developed and coupled to the SIMMWIC's.

KW - Active antennas

KW - Leaky-wave antennas

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KW - Radar position measurement

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Multifunctional radar sensor for automotive application

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Keywords

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