Yin Zhou scite author profile

Accurate detection of objects in 3D point clouds is a central problem in many applications, such as autonomous navigation, housekeeping robots, and augmented/virtual reality. To interface a highly sparse LiDAR point cloud with a region proposal network (RPN), most existing efforts have focused on hand-crafted feature representations, for example, a bird's eye view projection. In this work, we remove the need of manual feature engineering for 3D point clouds and propose VoxelNet, a generic 3D detection network that unifies feature extraction and bounding box prediction into a single stage, end-to-end trainable deep network. Specifically, VoxelNet divides a point cloud into equally spaced 3D voxels and transforms a group of points within each voxel into a unified feature representation through the newly introduced voxel feature encoding (VFE) layer. In this way, the point cloud is encoded as a descriptive volumetric representation, which is then connected to a RPN to generate detections. Experiments on the KITTI car detection benchmark show that VoxelNet outperforms the state-of-the-art LiDAR based 3D detection methods by a large margin. Furthermore, our network learns an effective discriminative representation of objects with various geometries, leading to encouraging results in 3D detection of pedestrians and cyclists, based on only LiDAR.

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Scalability in Perception for Autonomous Driving: Waymo Open Dataset

Sun

et al. 2020

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MVX-Net: Multimodal VoxelNet for 3D Object Detection

2019

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Many recent works on 3D object detection have focused on designing neural network architectures that can consume point cloud data. While these approaches demonstrate encouraging performance, they are typically based on a single modality and are unable to leverage information from other modalities, such as a camera. Although a few approaches fuse data from different modalities, these methods either use a complicated pipeline to process the modalities sequentially, or perform late-fusion and are unable to learn interaction between different modalities at early stages. In this work, we present PointFusion and VoxelFusion: two simple yet effective early-fusion approaches to combine the RGB and point cloud modalities, by leveraging the recently introduced VoxelNet architecture. Evaluation on the KITTI dataset demonstrates significant improvements in performance over approaches which only use point cloud data. Furthermore, the proposed method provides results competitive with the state-of-the-art multimodal algorithms, achieving top-2 ranking in five of the six birds eye view and 3D detection categories on the KITTI benchmark, by using a simple single stage network.

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Large Scale Interactive Motion Forecasting for Autonomous Driving : The Waymo Open Motion Dataset

et al. 2021

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VoxelNet: End-to-End Learning for Point Cloud Based 3D Object Detection

Zhou

Tuzel

2017

Preprint

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Scalability in Perception for Autonomous Driving: Waymo Open Dataset

Sun¹,

Kretzschmar²,

Dotiwalla³

et al. 2019

Preprint

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The research community has increasing interest in autonomous driving research, despite the resource intensity of obtaining representative real world data. Existing selfdriving datasets are limited in the scale and variation of the environments they capture, even though generalization within and between operating regions is crucial to the overall viability of the technology. In an effort to help align the research community's contributions with real-world selfdriving problems, we introduce a new large scale, high quality, diverse dataset. Our new dataset consists of 1150 scenes that each span 20 seconds, consisting of well synchronized and calibrated high quality LiDAR and camera data captured across a range of urban and suburban geographies. It is 15x more diverse than the largest camera+LiDAR dataset available based on our proposed diversity metric. We exhaustively annotated this data with 2D (camera image) and 3D (LiDAR) bounding boxes, with consistent identifiers across frames. Finally, we provide strong baselines for 2D as well as 3D detection and tracking tasks. We further study the effects of dataset size and generalization across geographies on 3D detection methods. Find data, code and more up-todate information at http://www.waymo.com/open.

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Offboard 3D Object Detection from Point Cloud Sequences

Zhou

Najibi

et al. 2021

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Occluded and long-range objects are ubiquitous and challenging for 3D object detection. Point cloud sequence data provide unique opportunities to improve such cases, as an occluded or distant object can be observed from different viewpoints or gets better visibility over time. However, the efficiency and effectiveness in encoding long-term sequence data can still be improved. In this work, we propose MoDAR, using motion forecasting outputs as a type of virtual modality, to augment LiDAR point clouds. The MoDAR modality propagates object information from temporal contexts to a target frame, represented as a set of virtual points, one for each object from a waypoint on a forecasted trajectory. A fused point cloud of both raw sensor points and the virtual points can then be fed to any off-the-shelf pointcloud based 3D object detector. Evaluated on the Waymo Open Dataset, our method significantly improves prior art detectors by using motion forecasting from extra-long sequences (e.g. 18 seconds), achieving new state of the arts, while not adding much computation overhead.

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Aerodynamic Loads on Tall Buildings: Interactive Database

2003

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Yin Zhou

VoxelNet: End-to-End Learning for Point Cloud Based 3D Object Detection

Scalability in Perception for Autonomous Driving: Waymo Open Dataset

MVX-Net: Multimodal VoxelNet for 3D Object Detection

Large Scale Interactive Motion Forecasting for Autonomous Driving : The Waymo Open Motion Dataset

VoxelNet: End-to-End Learning for Point Cloud Based 3D Object Detection

Scalability in Perception for Autonomous Driving: Waymo Open Dataset

Offboard 3D Object Detection from Point Cloud Sequences

Aerodynamic Loads on Tall Buildings: Interactive Database

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