Operating method and control unit for a lidar system, lidar system, and device

1 - 13 . (canceled) 14 . An operating method for a LiDAR system of compressed sensing type, the method comprising the following steps: (i) on an emission side, emitting primary light in an unstructured manner into a visual field for illumination of the visual field; and (ii) on a receiving side: receiving light from the visual field as secondary light; converting the received light by light structuring, using a predefined, fixed, and temporally constant matrix-like pattern, into restructured secondary light having at least one matrix-like light pattern including columnar patterns; and imaging for detection the restructured secondary light column by column using the columnar patterns on an associated common detector element of a detector arrangement and detecting the restructured secondary light as a whole. 15 . The operating method according to claim 14 , wherein the matrix-like pattern is provided using a pattern generator and using a predefined, fixed, and temporally constant light mask, and/or the secondary light is restructured to the restructured secondary light in transmission and/or in reflection to the pattern generator, and/or transmitted restructured secondary light having a first, transmitted matrix-like light pattern having first columnar patterns is detected by a first detector arrangement having first detector elements, and/or reflected restructured secondary light having a second, reflected matrix-like light pattern having second columnar patterns is detected by a second detector arrangement having second detector elements, and/or reflected and transmitted light patterns are evaluated after detection as light patterns complementary to one another separately and/or in combination with one another. 16 . The operating method according to claim 14 , wherein the illumination of the visual field using the primary light: (i) takes place through linear illumination using a linear light field of the primary light by sampling while swiveling the light field over the visual field, by swiveling a light source and/or deflecting optics; and/or (ii) takes place through planar illumination using a planar light field; each time continuously and/or according to a flash principle. 17 . The operating method according to claim 14 , wherein, during the illumination of the visual field, for the purpose of an association between columnar patterns of the matrix-like pattern and corresponding imaged columnar patterns on detector elements of a respective detector arrangement, on the receiving side, an underlying pattern generator and/or a respective detector arrangement rand/or underlying primary optics are swiveled in a coordinated and/or controlled and/or regulated manner. 18 . The operating method according to claim 14 , wherein: pair-wise different columnar patterns are provided and/or generated and/or used as a basis for the matrix-like pattern and/or for the matrix-like light pattern, and from consecutive use and/or imaging with all columnar patterns, unambiguous association of depth information in the visual field to individual detector elements is determined. 19 . The operating method according to claim 14 , wherein a runtime histogram of received light intensity is ascertained for every pixel in each columnar pattern and depth information associated with the columnar pattern is determined therefrom. 20 . The operating method according to claim 14 , wherein the columnar patterns used for light structuring includes or forms a complete set of columnar patterns and a complete orthogonal basis or a part of an orthogonal basis at a proportion of approximately 25%. 21 . The operating method according to claim 14 , wherein the columnar patterns used for the light structuring exhibits uniform or variable resolution along a column direction. 22 . A control unit for a LiDAR system, the control unit configured to control the LiDar system to: (i) on an emission side, emit primary light in an unstructured manner into a visual field for illumination of the visual field; and (ii) on a receiving side: receive light from the visual field as secondary light; convert the received light by light structuring, using a predefined, fixed, and temporally constant matrix-like pattern, into restructured secondary light having at least one matrix-like light pattern including columnar patterns; and image for detection the restructured secondary light column by column using the columnar patterns on an associated common detector element of a detector arrangement and detecting the restructured secondary light as a whole. 23 . A LiDAR system, comprising: an emitter unit configured to generate and emit primary light into a visual field for illumination of the visual field; and a receiver unit configured to for receive, detect, and evaluate secondary light from the visual field; wherein the LiDAR system is configured to: (i) on an emission side, emit, using the emitter unit, the primary light in an unstructured manner into the visual field for illumination of the visual field; and (ii) on a receiving side: receive light from the visual field as the secondary light; convert the received light by light structuring, using a predefined, fixed, and temporally constant matrix-like pattern, into restructured secondary light having at least one matrix-like light pattern including columnar patterns; and image for detection the restructured secondary light column by column using the columnar patterns on an associated common detector element of a detector arrangement and detecting the restructured secondary light as a whole. 24 . The LiDAR system according to claim 23 , wherein the receiver unit includes an optical pattern generator which is configured to accept and to restructure the received secondary light according to the matrix-like pattern of the pattern generator and to output the restructured secondary light having the matrix-like secondary light pattern for detection. 25 . The LiDAR system according to claim 23 , wherein the optical pattern generator is configured as a mechanically fixedly predefined light mask having a shape physically matching or corresponding to the matrix-like pattern. 26 . A vehicle, comprising: a LiDAR system, including: an emitter unit configured to generate and emit primary light into a visual field for illumination of the visual field; and a receiver unit configured to for receive, detect, and evaluate secondary light from the visual field; wherein the LiDAR system is configured to: (i) on an emission side, emit, using the emitter unit, the primary light in an unstructured manner into the visual field for illumination of the visual field; and (ii) on a receiving side: receive light from the visual field as the secondary light; convert the received light by light structuring, using a predefined, fixed, and temporally constant matrix-like pattern, into restructured secondary light having at least one matrix-like light pattern including columnar patterns; and image for detection the restructured secondary light column by column using the columnar patterns on an associated common detector element of a detector arrangement and detecting the restructured secondary light as a whole.