Litcius/Paper detail

MsSVT++: Mixed-Scale Sparse Voxel Transformer With Center Voting for 3D Object Detection

Jianan Li, Shaocong Dong, Lihe Ding, Tingfa Xu

2023IEEE Transactions on Pattern Analysis and Machine Intelligence23 citationsDOI

Abstract

Accurate 3D object detection in large-scale outdoor scenes, characterized by considerable variations in object scales, necessitates features rich in both long-range and fine-grained information. While recent detectors have utilized window-based transformers to model long-range dependencies, they tend to overlook fine-grained details. To bridge this gap, we propose MsSVT++, an innovative Mixed-scale Sparse Voxel Transformer that simultaneously captures both types of information through a divide-and-conquer approach. This approach involves explicitly dividing attention heads into multiple groups, each responsible for attending to information within a specific range. The outputs of these groups are subsequently merged to obtain final mixed-scale features. To mitigate the computational complexity associated with applying a window-based transformer in 3D voxel space, we introduce a novel Chessboard Sampling strategy and implement voxel sampling and gathering operations sparsely using a hash map. Moreover, an important challenge stems from the observation that non-empty voxels are primarily located on the surface of objects, which impedes the accurate estimation of bounding boxes. To overcome this challenge, we introduce a Center Voting module that integrates newly voted voxels enriched with mixed-scale contextual information towards the centers of the objects, thereby improving precise object localization. Extensive experiments demonstrate that our single-stage detector, built upon the foundation of MsSVT++, consistently delivers exceptional performance across diverse datasets.

Topics & Concepts

VoxelComputer scienceSliding window protocolArtificial intelligenceHash functionComputer visionObject detectionPattern recognition (psychology)Divide and conquer algorithmsBounding overwatchAlgorithmWindow (computing)Operating systemComputer securityAdvanced Neural Network ApplicationsHuman Pose and Action RecognitionAdvanced Image and Video Retrieval Techniques