FANet: Improving 3D Object Detection with Position Adaptation

Three-dimensional object detection plays a crucial role in achieving accurate and reliable autonomous driving systems. However, the current state-of-the-art two-stage detectors lack flexibility and have limited feature extraction capabilities to effectively handle the disorder and irregularity of point clouds. In this paper, we propose a novel network called FANet, which combines the strengths of PV-RCNN and PAConv (position adaptive convolution). The goal of FANet is to address the irregularity and disorder present in point clouds. In our network, the convolution operation constructs convolutional kernels using a basic weight matrix, and the coefficients of these kernels are adaptively learned by LearnNet from relative points. This approach allows for the flexible modeling of complex spatial variations and geometric structures in 3D point clouds, leading to the improved extraction of point cloud features and generation of high-quality 3D proposal boxes. Compared to other methods, extensive experiments on the KITTI dataset have demonstrated that the FANet exhibits superior 3D object detection accuracy, showcasing a significant improvement in our approach.