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10 results on '"Zhu, Juelin"'

1. LoD-Loc: Aerial Visual Localization using LoD 3D Map with Neural Wireframe Alignment

Author

Zhu, Juelin, Yan, Shen, Wang, Long, Zhang, Shengyue, Liu, Yu, and Zhang, Maojun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We propose a new method named LoD-Loc for visual localization in the air. Unlike existing localization algorithms, LoD-Loc does not rely on complex 3D representations and can estimate the pose of an Unmanned Aerial Vehicle (UAV) using a Level-of-Detail (LoD) 3D map. LoD-Loc mainly achieves this goal by aligning the wireframe derived from the LoD projected model with that predicted by the neural network. Specifically, given a coarse pose provided by the UAV sensor, LoD-Loc hierarchically builds a cost volume for uniformly sampled pose hypotheses to describe pose probability distribution and select a pose with maximum probability. Each cost within this volume measures the degree of line alignment between projected and predicted wireframes. LoD-Loc also devises a 6-DoF pose optimization algorithm to refine the previous result with a differentiable Gaussian-Newton method. As no public dataset exists for the studied problem, we collect two datasets with map levels of LoD3.0 and LoD2.0, along with real RGB queries and ground-truth pose annotations. We benchmark our method and demonstrate that LoD-Loc achieves excellent performance, even surpassing current state-of-the-art methods that use textured 3D models for localization. The code and dataset are available at https://victorzoo.github.io/LoD-Loc.github.io/., Comment: Accepted by NeurIPS 2024; for Project page, see https://victorzoo.github.io/LoD-Loc.github.io/

Published
2024

2. UAVD4L: A Large-Scale Dataset for UAV 6-DoF Localization

Author

Wu, Rouwan, Cheng, Xiaoya, Zhu, Juelin, Liu, Xuxiang, Zhang, Maojun, and Yan, Shen

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite significant progress in global localization of Unmanned Aerial Vehicles (UAVs) in GPS-denied environments, existing methods remain constrained by the availability of datasets. Current datasets often focus on small-scale scenes and lack viewpoint variability, accurate ground truth (GT) pose, and UAV build-in sensor data. To address these limitations, we introduce a large-scale 6-DoF UAV dataset for localization (UAVD4L) and develop a two-stage 6-DoF localization pipeline (UAVLoc), which consists of offline synthetic data generation and online visual localization. Additionally, based on the 6-DoF estimator, we design a hierarchical system for tracking ground target in 3D space. Experimental results on the new dataset demonstrate the effectiveness of the proposed approach. Code and dataset are available at https://github.com/RingoWRW/UAVD4L

Published
2024

3. Render-and-Compare: Cross-View 6 DoF Localization from Noisy Prior

Author

Yan, Shen, Cheng, Xiaoya, Liu, Yuxiang, Zhu, Juelin, Wu, Rouwan, Liu, Yu, and Zhang, Maojun

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite the significant progress in 6-DoF visual localization, researchers are mostly driven by ground-level benchmarks. Compared with aerial oblique photography, ground-level map collection lacks scalability and complete coverage. In this work, we propose to go beyond the traditional ground-level setting and exploit the cross-view localization from aerial to ground. We solve this problem by formulating camera pose estimation as an iterative render-and-compare pipeline and enhancing the robustness through augmenting seeds from noisy initial priors. As no public dataset exists for the studied problem, we collect a new dataset that provides a variety of cross-view images from smartphones and drones and develop a semi-automatic system to acquire ground-truth poses for query images. We benchmark our method as well as several state-of-the-art baselines and demonstrate that our method outperforms other approaches by a large margin.

Published
2023

4. CLaSP: Cross‐view 6‐DoF localisation assisted by synthetic panorama.

Author

Zhu, Juelin, Yan, Shen, Cheng, Xiaoya, Wu, Rouwan, Liu, Yuxiang, and Zhang, Maojun

Subjects
*POSE estimation (Computer vision), *COMPUTER vision, *PANORAMAS
Abstract

Despite the impressive progress in visual localisation, 6‐DoF cross‐view localisation is still a challenging task in the computer vision community due to the huge appearance changes. To address this issue, the authors propose the CLaSP, a coarse‐to‐fine framework, which leverages a synthetic panorama to facilitate cross‐view 6‐DoF localisation in a large‐scale scene. The authors first leverage a segmentation map to correct the prior pose, followed by a synthetic panorama on the ground to enable coarse pose estimation combined with a template matching method. The authors finally formulate the refine localisation process as feature matching and pose refinement to obtain the final result. The authors evaluate the performance of the CLaSP and several state‐of‐the‐art baselines on the Airloc dataset, which demonstrates the effectiveness of our proposed framework. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Robust Train Component Detection with Cascade Convolutional Neural Networks based on Structure Knowledge

Author

Li Yue, Yu Xiaoxi, Cheng Zhongyao, Zhu Juelin, Zeng Zeng, Wu Fan, and Chen Cen

Subjects
business.industry, Computer science, Deep learning, Feature extraction, Pattern recognition, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Convolutional neural network, Object detection, Domain (software engineering), Component (UML), 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Artificial intelligence, business, 0105 earth and related environmental sciences
Abstract

Recently, convolutional neural network (CNN) based methods have achieved superior results in generic object detection and have become the de-facto standard in the domain. However, potential adaptations to industrial areas are not well studied yet. A case worth exploring is the train component detection, in which the components may have strong relationships and some components (e.g., screws and nuts) are very small. Nevertheless, the detection performance of small train components significantly affects the efficiency of overall train component detection. In this work, we propose a novel robust train component detection(RTCD) framework, built on cascading CNNs and utilizing prior structure knowledge of the relationships between train components. The core idea of RTCD is to detect the big and easily detectable component first, and then find the areas that may contain small and challenging to detect components for following fine-grained exploitation. Our proposed attention region mechanism can find regions deserving of further analysis based on the region-of-interest (ROI) detected by the previous CNNs with the known structure knowledge. Then, these areas are cropped, zoomed in and fed into the following deep learning models for further detection. In order to verify the effectiveness of RTCD, 1, 130 high-resolution images of moving trains are captured and collected, from which 17, 334 critical train components are manually annotated. Extensive experiments therein have demonstrated that RTCD outperforms the existing state-of-the-art baselines significantly. The dataset and corresponding source code will be released to facilitate more future work.

Published
2020

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