LIDAR sensors and methods for LIDAR sensors

Publikationen: PatentPatentschrift

Standard

LIDAR sensors and methods for LIDAR sensors. / Thurner, Thomas (Erfinder); Brunner, David (Erfinder); Hennecke, Marcus (Erfinder) et al.
Patent Nr.: US11879996B2. Jan. 23, 2024.

Publikationen: PatentPatentschrift

Harvard

Thurner, T, Brunner, D, Hennecke, M, Schitter, G & Yoo, HW Jan.. 23 2024, LIDAR sensors and methods for LIDAR sensors, Patent Nr. US11879996B2.

APA

Thurner, T., Brunner, D., Hennecke, M., Schitter, G., & Yoo, H. W. (2024). LIDAR sensors and methods for LIDAR sensors. (Patent Nr. US11879996B2).

Vancouver

Thurner T, Brunner D, Hennecke M, Schitter G, Yoo HW, Erfinder/-innen. LIDAR sensors and methods for LIDAR sensors. US11879996B2. 2024 Jan 23.

Author

Thurner, Thomas (Erfinder) ; Brunner, David (Erfinder) ; Hennecke, Marcus (Erfinder) et al. / LIDAR sensors and methods for LIDAR sensors. Patent Nr.: US11879996B2. Jan. 23, 2024.

Bibtex - Download

@misc{8b1842d7439640b984a98857fe56e5c8,
title = "LIDAR sensors and methods for LIDAR sensors",
abstract = "A light detection and ranging (LIDAR) sensor includes a first reflective surface configured to oscillate about a first rotation axis to deflect a light beam into an environment; and a second reflective surface configured to oscillate about a second rotation axis to guide light received from the environment onto a photodetector of the LIDAR sensor. The first rotation axis and the second rotation axis extend parallel to one another. The LIDAR sensor also includes a control circuit configured to drive the first reflective surface to oscillate with a first maximum deflection angle about the first rotation axis, and to drive the second reflective surface to oscillate with a second maximum deflection angle about the second rotation axis, the first maximum deflection angle being greater than the second maximum deflection angle, and an area of the first reflective surface is less than an area of the second reflective surface.",
author = "Thomas Thurner and David Brunner and Marcus Hennecke and Georg Schitter and Yoo, {Han Woong}",
year = "2024",
month = jan,
day = "23",
language = "English",
type = "Patent",
note = "US11879996B2; G01S7/4911",

}

RIS (suitable for import to EndNote) - Download

TY - PAT

T1 - LIDAR sensors and methods for LIDAR sensors

AU - Thurner, Thomas

AU - Brunner, David

AU - Hennecke, Marcus

AU - Schitter, Georg

AU - Yoo, Han Woong

PY - 2024/1/23

Y1 - 2024/1/23

N2 - A light detection and ranging (LIDAR) sensor includes a first reflective surface configured to oscillate about a first rotation axis to deflect a light beam into an environment; and a second reflective surface configured to oscillate about a second rotation axis to guide light received from the environment onto a photodetector of the LIDAR sensor. The first rotation axis and the second rotation axis extend parallel to one another. The LIDAR sensor also includes a control circuit configured to drive the first reflective surface to oscillate with a first maximum deflection angle about the first rotation axis, and to drive the second reflective surface to oscillate with a second maximum deflection angle about the second rotation axis, the first maximum deflection angle being greater than the second maximum deflection angle, and an area of the first reflective surface is less than an area of the second reflective surface.

AB - A light detection and ranging (LIDAR) sensor includes a first reflective surface configured to oscillate about a first rotation axis to deflect a light beam into an environment; and a second reflective surface configured to oscillate about a second rotation axis to guide light received from the environment onto a photodetector of the LIDAR sensor. The first rotation axis and the second rotation axis extend parallel to one another. The LIDAR sensor also includes a control circuit configured to drive the first reflective surface to oscillate with a first maximum deflection angle about the first rotation axis, and to drive the second reflective surface to oscillate with a second maximum deflection angle about the second rotation axis, the first maximum deflection angle being greater than the second maximum deflection angle, and an area of the first reflective surface is less than an area of the second reflective surface.

M3 - Patent

M1 - US11879996B2

Y2 - 2019/11/11

ER -