Litcius/Paper detail

Noise-tolerant Bessel-beam single-photon imaging in fog

Haotian Shi, Guangyue Shen, Huiyu Qi, Qi Zhan, Haifeng Pan, Zhaohui Li, Guang Wu

2022Optics Express32 citationsDOIOpen Access PDF

Abstract

Reliable laser imaging is crucial to the autonomous driving. In unfavorable weather condition, however, it always suffers from the acute background noise and signal attenuation due to the harmful strong scattering. We demonstrate a noise-tolerant LiDAR with the help of Bessel beam illumination and single-photon detection. After a 31.5-m propagation in thick fog, the Bessel beam employed by our noise-tolerant LiDAR still owns a central spot with the diameter of 1.86 mm, which supports a receiving field of view as small as 60 µrad and a great suppression of the background noise. This noise-tolerant LiDAR simultaneously performs well both in depth and intensity imaging in unfavorable weather, which can be functioned as a reliable imaging sensor in automatic driving.

Topics & Concepts

LidarOpticsBessel beamAttenuationLaser beamsNoise (video)Beam (structure)LaserRemote sensingAtmospheric opticsField of viewImage qualitySignal-to-noise ratio (imaging)Backscatter (email)Materials scienceSIGNAL (programming language)Light beamSpatial frequencyImage processingImage resolutionDiffuse sky radiationBackground noiseGhost imagingIntensity (physics)Spatial filterAttenuation coefficientSignal processingOptical imagingBeam expanderLight intensityWavefrontAdvanced Optical Sensing TechnologiesRandom lasers and scattering mediaOptical Wireless Communication Technologies