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94 GHz 3D-imaging radar for sensor-based locomotion
M. Lange,
J. Detlefsen
Associate Professorship of High Frequency Fields and Circuits (2008 — 2018)
Technical University of Munich
Research output
:
Contribution to journal
›
Conference article
›
peer-review
13
Scopus citations
Overview
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Dive into the research topics of '94 GHz 3D-imaging radar for sensor-based locomotion'. Together they form a unique fingerprint.
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Keyphrases
Locomotion
100%
Sensor-based
100%
3D Imaging
100%
Imaging Radar
100%
Indoor Environment
66%
Millimeter Wave
66%
Object Contour
33%
Laser Camera
33%
Object Identification
33%
Scanning Laser
33%
High-resolution
33%
Multi-task
33%
3D Image
33%
Near-field
33%
Time Information
33%
Doppler Radar
33%
Autonomous Vehicles
33%
Potential Identification
33%
Wave Scattering
33%
Demonstrator Vehicles
33%
Scattering Processes
33%
Wave Pulse
33%
Real-time Collision Avoidance
33%
Field of Vision
33%
Autonomous Sensor
33%
Pulse Doppler Radar
33%
3D Radar Imaging
33%
Millimeter Wave Radar
33%
Physics
High Resolution
100%
Collision Avoidance
100%
Doppler Radar
100%
Wave Scattering
100%
3D Imaging
100%
Earth and Planetary Sciences
Millimeter Wave
100%
Imaging Radar
100%
Indoor Environment
66%
Real Time
66%
Laser Scanning
33%
Radar Imaging
33%
Collision Avoidance
33%
Wave Scattering
33%
Pulse Doppler Radar
33%
Engineering
Millimeter Wave
100%
Radar Sensor
50%
Collision Avoidance
50%
Millimeter-Wave Radar
50%
Close Range
50%
Scattering Phenomenon
50%
High Resolution
50%
Pulse Doppler Radar
50%