Title :
94 GHz 3D-imaging radar for sensor-based locomotion
Author :
Lange, M. ; Detlefsen, J.
Author_Institution :
Tech. Univ., Munchen, West Germany
Abstract :
A millimeter-wave pulse Doppler radar sensor at 94 GHz with full 360 degrees *40 degrees field of vision and resolution of 25 cm in each dimension, which is suitable for sensor-based locomotion of autonomous vehicles, has been developed. Several near-field 3D images of realistic indoor environments demonstrate the feasibility of real-time collision avoidance and navigation by such high-resolution 3D radar imaging. A demonstrator vehicle equipped with a scanning laser camera for the very close range and a multitask millimeter-wave radar providing 3D real-time information in the range from 1.4 m to 50 m is set up to perform autonomous sensor-based locomotion in industrial indoor environments. Results are discussed with respect to the visibility of typical millimeter-wave scattering phenomena as well as with respect to the potential identification of object contours and zone free of obstacles.<>
Keywords :
Doppler effect; automatic guided vehicles; computer vision; computerised navigation; image sensors; microcomputer applications; microwave detectors; microwave imaging; mobile robots; radar applications; radar systems; 1.4 to 50 m; 3D-imaging radar; 94 GHz; EHF; MM-wave scattering phenomena; autonomous vehicles; high-resolution; industrial indoor environments; machine vision; microcomputer controlled system; millimeter-wave; multitask millimeter-wave radar; navigation; near-field 3D images; object contour identification; pulse Doppler radar sensor; real-time collision avoidance; scanning laser camera; sensor-based locomotion; Cameras; Collision avoidance; Doppler radar; Indoor environments; Laser radar; Millimeter wave radar; Mobile robots; Navigation; Radar imaging; Remotely operated vehicles;
Conference_Titel :
Microwave Symposium Digest, 1989., IEEE MTT-S International
Conference_Location :
Long Beach, CA, USA
DOI :
10.1109/MWSYM.1989.38912
