Weiliang Tang scite author profile

Existing single-stage detectors for locating objects in point clouds often treat object localization and category classification as separate tasks, so the localization accuracy and classification confidence may not well align. To address this issue, we present a new single-stage detector named the Confident IoU-Aware Single-Stage object Detector (CIA-SSD). First, we design the lightweight Spatial-Semantic Feature Aggregation module to adaptively fuse high-level abstract semantic features and low-level spatial features for accurate predictions of bounding boxes and classification confidence. Also, the predicted confidence is further rectified with our designed IoU-aware confidence rectification module to make the confidence more consistent with the localization accuracy. Based on the rectified confidence, we further formulate the Distance-variant IoU-weighted NMS to obtain smoother regressions and avoid redundant predictions. We experiment CIA-SSD on 3D car detection in the KITTI test set and show that it attains top performance in terms of the official ranking metric (moderate AP 80.28%) and above 32 FPS inference speed, outperforming all prior single-stage detectors. The code is available at https://github.com/Vegeta2020/CIA-SSD.

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CIA-SSD: Confident IoU-Aware Single-Stage Object Detector From Point Cloud

Tang

Chen

et al. 2020

Preprint

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SE-SSD: Self-Ensembling Single-Stage Object Detector From Point Cloud

Wu¹,

Tang²,

Jiang³

2021

Preprint

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We present Self-Ensembling Single-Stage object Detector (SE-SSD) for accurate and efficient 3D object detection in outdoor point clouds. Our key focus is on exploiting both soft and hard targets with our formulated constraints to jointly optimize the model, without introducing extra computation in the inference. Specifically, SE-SSD contains a pair of teacher and student SSDs, in which we design an effective IoU-based matching strategy to filter soft targets from the teacher and formulate a consistency loss to align student predictions with them. Also, to maximize the distilled knowledge for ensembling the teacher, we design a new augmentation scheme to produce shape-aware augmented samples to train the student, aiming to encourage it to infer complete object shapes. Lastly, to better exploit hard targets, we design an ODIoU loss to supervise the student with constraints on the predicted box centers and orientations. Our SE-SSD attains top performance compared with all prior published works. Also, it attains top precisions for car detection in the KITTI benchmark (ranked 1 st and 2 nd on the BEV and 3D leaderboards 1 , respectively) with an ultra-high inference speed. The code is available at https://github.com/Vegeta2020/SE-SSD.

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Singular-value-decomposition based scale invariant image matching

Sze

Tang

Hung

2006

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In this paper, an image matching algorithm combining a SVD matching approach and scale invariant measure is proposed to relate images with large-scale variations. To obtain a better performance on handling redundant points, we modify the SVD matching approach which enforces the condition of minimal distance between the structures of point patterns at the same time ensures the likeliness of the matched points. Together with the adoption of scale invariant features, the proposed method can match features undergoing significant scale changes and provide a set of matches containing a high percentage of correct matches without any statistical outlier detection.

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Weiliang Tang

SE-SSD: Self-Ensembling Single-Stage Object Detector From Point Cloud

CIA-SSD: Confident IoU-Aware Single-Stage Object Detector From Point Cloud

CIA-SSD: Confident IoU-Aware Single-Stage Object Detector From Point Cloud

SE-SSD: Self-Ensembling Single-Stage Object Detector From Point Cloud

Singular-value-decomposition based scale invariant image matching

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