A deep learning architecture is also proposed to estimate the RADAR signal processing pipeline while performing multitask learning for object detection and free driving space segmentation. Finally, this thesis exposes a collaborative contribution, the RADIal dataset with synchronised High-Definition (HD) RADAR, LiDAR and camera. It also introduces a method to open up research into the fusion of LiDAR and RADAR sensors for scene understanding. ![]() This thesis then present a proposed set of deep learning architectures with their associated loss functions for RADAR semantic segmentation. It will also describe the CARRADA dataset, composed of synchronised camera and RADAR data with a semi-automatic annotation method. A simple simulation as well as generative methods for creating annotated data will be presented. First, this thesis details approaches to tackle the current lack of data. This thesis proposes an extensive study of RADAR scene understanding, from the construction of an annotated dataset to the conception of adapted deep learning architectures. ![]() The RADAR sensor is seldom used for scene understanding due to its poor angular resolution, the size, noise, and complexity of RADAR raw data as well as the lack of available datasets. With the rapid progress of deep learning and the availability of public driving datasets, the perception ability of vision-based driving systems has considerably improved. ![]() This thesis focuses the on automotive RADAR, which is a low-cost active sensor measuring properties of surrounding objects, including their relative speed, and has the key advantage of not being impacted by adverse weather conditions. The redundancy and complementarity of the vehicle's sensors provide an accurate and robust comprehension of the environment, thereby increasing the level of performance and safety. Autonomous driving requires a detailed understanding of complex driving scenes.
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