Michael Barjenbruch scite author profile

The growing use of Doppler radars in the automotive field and the constantly increasing measurement accuracy open new possibilities for estimating the motion of the ego-vehicle. The following paper presents a robust and selfcontained algorithm to instantly determine the velocity and yaw rate of the ego-vehicle. The algorithm is based on the received reflections (targets) of a single measurement cycle. It analyzes the distribution of their radial velocities over the azimuth angle. The algorithm does not require any preprocessing steps such as clustering or clutter suppression. Storage of history and data association is avoided. As an additional benefit, all targets are instantly labeled as stationary or non-stationary.

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A method for interference cancellation in automotive radar

Barjenbruch

Kellner

Dietmayer

et al. 2015

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In this paper a method for interference detection and cancellation for automotive radar systems is proposed. With the growing amount of vehicles equipped with radar sensors, interference mitigation techniques are getting more and more important to maintain good interoperability. Based on the time domain signal of a 76 GHz chirp sequence radar the interfering signals of FMCW radar sensors are identified. This is performed by image processing methods applied to the time-frequencyimage. With the maximally stable extremal regions algorithm the interference pattern in the signal is identified. Once the disturbed samples are known they are zeroed. To avoid any ringing effects in the processed radar image the neighborhood of affected samples is smoothed using a raised cosine window. The effectiveness of the proposed method is demonstrated on real world measurements. The method reveals weak scattering centers of the vehicle, which are occluded by interference otherwise.

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Probabilistic ego-motion estimation using multiple automotive radar sensors

Rapp

Barjenbruch

Hahn

et al. 2017

Robotics and Autonomous Systems

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Instantaneous full-motion estimation of arbitrary objects using dual Doppler radar

Kellner¹,

Barjenbruch²,

Klappstein

et al. 2014

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Instantaneous ego-motion estimation using multiple Doppler radars

Kellner¹,

Barjenbruch²,

Klappstein

et al. 2014

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