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Abstract
Photon counting lidar for long-range detection faces the problem of declining ranging performance caused by background noise. Current anti-noise methods are not robust enough in the case of weak signal and strong background noise, resulting in poor ranging error. In this work, based on the characteristics of the uncertainty of echo signal and noise in photon counting lidar, an entropy-based anti-noise method is proposed to reduce the ranging error under high background noise. Firstly, the photon counting entropy, which is considered as the feature to distinguish signal from noise, is defined to quantify the uncertainty of fluctuation among photon events responding to the Geiger mode avalanche photodiode. Then, the photon counting entropy is combined with a windowing operation to enhance the difference between signal and noise, so as to mitigate the effect of background noise and estimate the time of flight of the laser pulses. Simulation and experimental analysis show that the proposed method improves the anti-noise performance well, and experimental results demonstrate that the proposed method effectively mitigates the effect of background noise to reduce ranging error despite high background noise.
Highlights
Benefiting from the excellent photon-efficiency sensitivity and picosecond-level temporal resolution, photon counting lidar equipped with Geiger mode avalanche photodiode (Gm-APD) has been widely used in long-range high-resolution ranging and 3D imaging [1,2,3,4,5,6,7]
According to the radar equation [26], the signal photoelectrons Ns ≈ 0.05. 2000 pulses are accumulated to obtain a photon counting histogram, and 1000 measurements are repeated in each simulation to estimate the range accuracy and range precision
The threshold is set as a half of the maximal counts in photon counting histogram, and those counts higher than the threshold are considered as signal, and vice versa are noise
Summary
Benefiting from the excellent photon-efficiency sensitivity and picosecond-level temporal resolution, photon counting lidar equipped with Geiger mode avalanche photodiode (Gm-APD) has been widely used in long-range high-resolution ranging and 3D imaging [1,2,3,4,5,6,7]. Several anti-noise methods have been proposed for photon counting lidar. A routinely used method is the iterative sigma multiplier filter. It cuts off the photon counting histogram within a region near the signal peak with the width of a multiplier of the emitted pulse’s standard deviation [9,10]. Its reliability is very dependent on the accuracy of the peak position of the echo signal Another widely used method is to set a threshold to filter noise. To discriminate signal counts to obtain clearer photon counting data. Such methods are applicable in low flux scenes, but the hypothesis is not satisfied in high background scenes
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