5 patents
Utility
Beam-steering device particularly for LIDAR systems
28 Nov 23
A LIDAR apparatus for scanning a scene, comprising a transmitter stage, a receiver stage, a beam-steering engine configured to steer the light beam received from the transmitter stage in different directions to scan at least a portion of the scene, the beam-steering engine being responsive to steering commands to produce corresponding deflections of the light beam and an operation monitor for monitoring a beam-steering function of the beam-steering engine.
Jean-Francois Bernier, Pierre Olivier, Dominique Bodziany
Filed: 21 Jul 21
Utility
Component for a LIDAR sensor system, LIDAR sensor system, LIDAR sensor device, method for a LIDAR sensor system and method for a LIDAR sensor device
15 Aug 23
The present disclosure relates to various embodiments of an optical component for a LIDAR Sensor System.
Ricardo Ferreira, Stefan Hadrath, Peter Hoehmann, Herbert Kaestle, Florian Kolb, Norbert Magg, Jiye Park, Tobias Schmidt, Martin Schnarrenberger, Norbert Haas, Helmut Horn, Bernhard Siessegger, Guido Angenendt, Charles Braquet, Gerhard Maierbacher, Oliver Neitzke, Sergey Khrushchev
Filed: 5 Mar 20
Utility
Beam-Steering Device Particularly for Lidar Systems
3 Aug 23
A beam-steering engine, comprising an optical element switchable between a first operational mode and a second operational mode, in the first operational mode of the optical element the beam-steering engine is configured to output an input light beam incident on the beam-steering engine along a first propagation direction and in the second operational mode of the optical element the beam-steering engine is configured to output the input light beam incident on the beam-steering engine along a second propagation direction.
Pierre Olivier
Filed: 12 Dec 22
Utility
Lidar System with Coarse Angle Control
3 Aug 23
According to various embodiments, a LIDAR system (100) may have: a detector (104) having a plurality of detector pixels (106) arranged along a first direction, wherein each detector pixel (106) of the plurality of detector pixels (106) is assigned to a respective sub-section of the field of view (102); a light source (110) having a plurality of sub-light sources (112) arranged along a second direction at an angle to the first direction, wherein each sub-light source (112) of the plurality of sub-light sources (112) is assigned to a respective sub-section of the field of view (102); a coarse angle control element (114) which is configured to deflect light from the light source (110) to the field of view and to deflect light from the field of view (102) to the detector (104); and a light emission controller (118) which is configured to control the sub-light sources (112) of the plurality of sub-light sources (112) in such a way that each sub-light source (112) of the plurality of sub-light sources (112) emits light in a respective emission time period.
Peter HOHMANN, Martin SCHNARRENBERGER
Filed: 1 Jun 21
Utility
SYSTEMS AND METHODS FOR WIDE-ANGLE LiDAR USING NON-UNIFORM MAGNIFICATION OPTICS
29 Jun 23
Methods and systems for wide-angle LiDAR are provided that utilize magnification optics that provide non-uniform resolution in different areas of a Field of View (FoV).
Robert Baribault, Pierre Olivier
Filed: 21 Dec 22
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