Camera and LiDAR analysis for 3D object detection in foggy weather conditions

Nguyen Anh Minh Mai; Duthon, Pierre; Salmane, Pascal Housam; Khoudour, Louahdi; Crouzil, Alain; Velastin, Sergio A.; IEEE

Abstract

Today, the popularity of self-driving cars is growing at an exponential rate and is starting to creep onto the roads of developing countries. For autonomous vehicles to function, one of the essential features that needs to be developed is the ability to perceive their surroundings. To do this, sensors such as cameras, LiDAR, or radar are integrated to collect raw data. The objective of this paper is to evaluate a fusion solution of cameras and LiDARs (4 and 64 beams) for 3D object detection in foggy weather conditions. The data from the two input sensors are fused and an analysis of the contribution of each sensor on its own is then performed. In our analysis, we calculate average precision using the popular KITTI dataset, on which we have applied different intensities of fog (on a dataset we have called Multifog KITTI). The main results observed are as follows. Performances with stereo camera and 4 or 64 beams LiDAR are high (90.15%, 89.26%). Performance of the 4 beams LiDAR alone decreases sharply in foggy weather conditions (13.43%). Performance when using only a camera-based model remains quite high (89.36%). In conclusion, stereo cameras on their own are capable of detecting 3D objects in foggy weather with high accuracy and their performance slightly improves when used in conjunction with LIDAR sensors.

Más información

Título según WOS: ID WOS:000860720400021 Not found in local WOS DB
Título de la Revista: 2022 12TH INTERNATIONAL CONFERENCE ON PATTERN RECOGNITION SYSTEMS (ICPRS)
Editorial: IEEE
Fecha de publicación: 2022
DOI:

10.1109/ICPRS54038.2022.9854073

Notas: ISI