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209 results on '"Kerr, Dermot"'

1. BSH-Det3D: Improving 3D Object Detection with BEV Shape Heatmap

Author

Shen, You, Zhang, Yunzhou, Wu, Yanmin, Wang, Zhenyu, Yang, Linghao, Coleman, Sonya, and Kerr, Dermot

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The progress of LiDAR-based 3D object detection has significantly enhanced developments in autonomous driving and robotics. However, due to the limitations of LiDAR sensors, object shapes suffer from deterioration in occluded and distant areas, which creates a fundamental challenge to 3D perception. Existing methods estimate specific 3D shapes and achieve remarkable performance. However, these methods rely on extensive computation and memory, causing imbalances between accuracy and real-time performance. To tackle this challenge, we propose a novel LiDAR-based 3D object detection model named BSH-Det3D, which applies an effective way to enhance spatial features by estimating complete shapes from a bird's eye view (BEV). Specifically, we design the Pillar-based Shape Completion (PSC) module to predict the probability of occupancy whether a pillar contains object shapes. The PSC module generates a BEV shape heatmap for each scene. After integrating with heatmaps, BSH-Det3D can provide additional information in shape deterioration areas and generate high-quality 3D proposals. We also design an attention-based densification fusion module (ADF) to adaptively associate the sparse features with heatmaps and raw points. The ADF module integrates the advantages of points and shapes knowledge with negligible overheads. Extensive experiments on the KITTI benchmark achieve state-of-the-art (SOTA) performance in terms of accuracy and speed, demonstrating the efficiency and flexibility of BSH-Det3D. The source code is available on https://github.com/mystorm16/BSH-Det3D.

Published
2023

2. Model-Free Automated Reversing of Articulated Heavy Goods Vehicles

Author

Rahman, Shammi, Gordon, Timothy, Henderson, Leon, Gao, Yangyan, Coleman, Sonya, Kerr, Dermot, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Mastinu, Giampiero, editor, Braghin, Francesco, editor, Cheli, Federico, editor, Corno, Matteo, editor, and Savaresi, Sergio M., editor

Published
2024
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4. Accurate and Robust Object-oriented SLAM with 3D Quadric Landmark Construction in Outdoor Environment

Author

Tian, Rui, Zhang, Yunzhou, Feng, Yonghui, Yang, Linghao, Cao, Zhenzhong, Coleman, Sonya, and Kerr, Dermot

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

Object-oriented SLAM is a popular technology in autonomous driving and robotics. In this paper, we propose a stereo visual SLAM with a robust quadric landmark representation method. The system consists of four components, including deep learning detection, object-oriented data association, dual quadric landmark initialization and object-based pose optimization. State-of-the-art quadric-based SLAM algorithms always face observation related problems and are sensitive to observation noise, which limits their application in outdoor scenes. To solve this problem, we propose a quadric initialization method based on the decoupling of the quadric parameters method, which improves the robustness to observation noise. The sufficient object data association algorithm and object-oriented optimization with multiple cues enables a highly accurate object pose estimation that is robust to local observations. Experimental results show that the proposed system is more robust to observation noise and significantly outperforms current state-of-the-art methods in outdoor environments. In addition, the proposed system demonstrates real-time performance., Comment: Submitting to RA-L

Published
2021

6. Accurate and Robust Scale Recovery for Monocular Visual Odometry Based on Plane Geometry

Author

Tian, Rui, Zhang, Yunzhou, Zhu, Delong, Liang, Shiwen, Coleman, Sonya, and Kerr, Dermot

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Scale ambiguity is a fundamental problem in monocular visual odometry. Typical solutions include loop closure detection and environment information mining. For applications like self-driving cars, loop closure is not always available, hence mining prior knowledge from the environment becomes a more promising approach. In this paper, with the assumption of a constant height of the camera above the ground, we develop a light-weight scale recovery framework leveraging an accurate and robust estimation of the ground plane. The framework includes a ground point extraction algorithm for selecting high-quality points on the ground plane, and a ground point aggregation algorithm for joining the extracted ground points in a local sliding window. Based on the aggregated data, the scale is finally recovered by solving a least-squares problem using a RANSAC-based optimizer. Sufficient data and robust optimizer enable a highly accurate scale recovery. Experiments on the KITTI dataset show that the proposed framework can achieve state-of-the-art accuracy in terms of translation errors, while maintaining competitive performance on the rotation error. Due to the light-weight design, our framework also demonstrates a high frequency of 20Hz on the dataset., Comment: Submitting to IEEE International Conference on Robotics and Automation 2021

Published
2021

9. Event-VPR: End-to-End Weakly Supervised Network Architecture for Event-based Visual Place Recognition

Author

Kong, Delei, Fang, Zheng, Li, Haojia, Hou, Kuanxu, Coleman, Sonya, and Kerr, Dermot

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Robotics
Abstract

Traditional visual place recognition (VPR) methods generally use frame-based cameras, which is easy to fail due to dramatic illumination changes or fast motions. In this paper, we propose an end-to-end visual place recognition network for event cameras, which can achieve good place recognition performance in challenging environments. The key idea of the proposed algorithm is firstly to characterize the event streams with the EST voxel grid, then extract features using a convolution network, and finally aggregate features using an improved VLAD network to realize end-to-end visual place recognition using event streams. To verify the effectiveness of the proposed algorithm, we compare the proposed method with classical VPR methods on the event-based driving datasets (MVSEC, DDD17) and the synthetic datasets (Oxford RobotCar). Experimental results show that the proposed method can achieve much better performance in challenging scenarios. To our knowledge, this is the first end-to-end event-based VPR method. The accompanying source code is available at https://github.com/kongdelei/Event-VPR.

Published
2020

10. EAO-SLAM: Monocular Semi-Dense Object SLAM Based on Ensemble Data Association

Author

Wu, Yanmin, Zhang, Yunzhou, Zhu, Delong, Feng, Yonghui, Coleman, Sonya, and Kerr, Dermot

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

Object-level data association and pose estimation play a fundamental role in semantic SLAM, which remain unsolved due to the lack of robust and accurate algorithms. In this work, we propose an ensemble data associate strategy for integrating the parametric and nonparametric statistic tests. By exploiting the nature of different statistics, our method can effectively aggregate the information of different measurements, and thus significantly improve the robustness and accuracy of data association. We then present an accurate object pose estimation framework, in which an outliers-robust centroid and scale estimation algorithm and an object pose initialization algorithm are developed to help improve the optimality of pose estimation results. Furthermore, we build a SLAM system that can generate semi-dense or lightweight object-oriented maps with a monocular camera. Extensive experiments are conducted on three publicly available datasets and a real scenario. The results show that our approach significantly outperforms state-of-the-art techniques in accuracy and robustness. The source code is available on: https://github.com/yanmin-wu/EAO-SLAM., Comment: Accepted to IROS 2020. Project Page: https://yanmin-wu.github.io/project/eaoslam/; Code: https://github.com/yanmin-wu/EAO-SLAM

Published
2020
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14. PRED18: Dataset and Further Experiments with DAVIS Event Camera in Predator-Prey Robot Chasing

Author

Moeys, Diederik Paul, Neil, Daniel, Corradi, Federico, Kerr, Emmett, Vance, Philip, Das, Gautham, Coleman, Sonya A., McGinnity, Thomas M., Kerr, Dermot, and Delbruck, Tobi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Machine vision systems using convolutional neural networks (CNNs) for robotic applications are increasingly being developed. Conventional vision CNNs are driven by camera frames at constant sample rate, thus achieving a fixed latency and power consumption tradeoff. This paper describes further work on the first experiments of a closed-loop robotic system integrating a CNN together with a Dynamic and Active Pixel Vision Sensor (DAVIS) in a predator/prey scenario. The DAVIS, mounted on the predator Summit XL robot, produces frames at a fixed 15 Hz frame-rate and Dynamic Vision Sensor (DVS) histograms containing 5k ON and OFF events at a variable frame-rate ranging from 15-500 Hz depending on the robot speeds. In contrast to conventional frame-based systems, the latency and processing cost depends on the rate of change of the image. The CNN is trained offline on the 1.25h labeled dataset to recognize the position and size of the prey robot, in the field of view of the predator. During inference, combining the ten output classes of the CNN allows extracting the analog position vector of the prey relative to the predator with a mean 8.7% error in angular estimation. The system is compatible with conventional deep learning technology, but achieves a variable latency-power tradeoff that adapts automatically to the dynamics. Finally, investigations on the robustness of the algorithm, a human performance comparison and a deconvolution analysis are also explored., Comment: 8 pages

Published
2018

17. Computational Approach to Identifying Contrast-Driven Retinal Ganglion Cells

Author

Gault, Richard, Vance, Philip, McGinnity, T. Martin, Coleman, Sonya, Kerr, Dermot, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Farkaš, Igor, editor, Masulli, Paolo, editor, Otte, Sebastian, editor, and Wermter, Stefan, editor

Published
2021
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21. Explainable Artificial Intelligence for Falls Prediction

Author

Lindsay, Leeanne, Coleman, Sonya, Kerr, Dermot, Taylor, Brian, Moorhead, Anne, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Kotenko, Igor, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Singh, Mayank, editor, Gupta, P. K., editor, Tyagi, Vipin, editor, Flusser, Jan, editor, Ören, Tuncer, editor, and Valentino, Gianluca, editor

Published
2020
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24. Steering a Predator Robot using a Mixed Frame/Event-Driven Convolutional Neural Network

Author

Moeys, Diederik Paul, Corradi, Federico, Kerr, Emmett, Vance, Philip, Das, Gautham, Neil, Daniel, Kerr, Dermot, and Delbruck, Tobi

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper describes the application of a Convolutional Neural Network (CNN) in the context of a predator/prey scenario. The CNN is trained and run on data from a Dynamic and Active Pixel Sensor (DAVIS) mounted on a Summit XL robot (the predator), which follows another one (the prey). The CNN is driven by both conventional image frames and dynamic vision sensor "frames" that consist of a constant number of DAVIS ON and OFF events. The network is thus "data driven" at a sample rate proportional to the scene activity, so the effective sample rate varies from 15 Hz to 240 Hz depending on the robot speeds. The network generates four outputs: steer right, left, center and non-visible. After off-line training on labeled data, the network is imported on the on-board Summit XL robot which runs jAER and receives steering directions in real time. Successful results on closed-loop trials, with accuracies up to 87% or 92% (depending on evaluation criteria) are reported. Although the proposed approach discards the precise DAVIS event timing, it offers the significant advantage of compatibility with conventional deep learning technology without giving up the advantage of data-driven computing., Comment: Paper presented at the conference: Second International Conference on Event-Based Control, Communication and Signal Processing (EBCCSP) 2016, At Krakow, Poland

Published
2016

26. DynaQuadric: Dynamic Quadric SLAM for Quadric Initialization, Mapping, and Tracking

Author

Tian, Rui, Zhang, Yunzhou, Yang, Linghao, Zhang, Jinpeng, Coleman, Sonya, and Kerr, Dermot

Abstract

Dynamic SLAM is a key technology for autonomous driving and robotics, and accurate pose estimation of surrounding objects is important for semantic perception tasks. Current quadric SLAM methods are based on the assumption of a static environment and can only reconstruct static quadrics in the scene, which limits their applications in complex dynamic scenarios. In this paper, we propose a visual SLAM system that is capable of reconstructing dynamic objects as quadrics, with a unified framework for jointly optimizing pose estimation, multi-object tracking (MOT), and quadric parameters. We propose a robust object-centric quadric initialization algorithm for both static and moving objects, which decouples the prior estimation of the object pose from the quadric parameters. The object is initialized with a coarse sphere, and quadric parameters are further refined. We design a novel factor graph that tightly optimizes camera pose, object pose, map points and quadric parameters within the sliding window-based optimization. To the best of our knowledge, we are the first to propose a dynamic SLAM that combines quadric representations and MOT in a tightly coupled optimization. We perform qualitative and quantitative experiments on both simulated and real-world datasets, and demonstrate the robustness and accuracy in terms of camera localization, dynamic quadric initialization, mapping and tracking. Our system demonstrates the potential application of object perception with quadric representation in complex dynamic scenes.

Published
2024
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27. Daily Energy Price Forecasting Using a Polynomial NARMAX Model

Author

McHugh, Catherine, Coleman, Sonya, Kerr, Dermot, McGlynn, Daniel, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Lotfi, Ahmad, editor, Bouchachia, Hamid, editor, Gegov, Alexander, editor, Langensiepen, Caroline, editor, and McGinnity, Martin, editor

Published
2019
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33. ASL Fingerspelling Classification for Use in Robot Control †.

Author

McCready, Kevin, Kerr, Dermot, Coleman, Sonya, and Kerr, Emmett

Subjects
ROBOTS, AMERICAN Sign Language, FINGER spelling, COMPUTER vision, SERVICE learning
Abstract

This paper proposes a gesture-based control system for industrial robots. To achieve that goal, the performance of an image classifier trained on three different American Sign Language (ASL) fingerspelling image datasets is considered. Then, the three are combined into a single larger dataset, and the classifier is trained on that. The result of this process is then compared with the original three. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Computing the Orientation of Hardware Components from Images Using Traditional Computer Vision Methods †.

Author

Gambale, Antonio, Kerr, Emmett, Kerr, Dermot, and Coleman, Sonya

Subjects
MANUFACTURING industries, MACHINE learning, METHODOLOGY, ROBOTICS, PRINCIPAL components analysis
Abstract

This paper introduces a methodology for precise object orientation determination using principal component analysis, with robust performance under significant noise conditions. It validates the potential to mitigate the challenges associated with axis-aligned bounding boxes in smart manufacturing environments. The proposed approach paves the way for improved alignment in robotic grasping tasks, positioning it as a computationally efficient alternative to ML methods employing oriented bounding boxes. the methodology demonstrated a maximum angle deviation of 3.5 degrees under severe noise conditions through testing with bolts in orientations of 0 to 180 degrees. [ABSTRACT FROM AUTHOR]

Published
2024
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42. SATRE – Standardised Architecture for Trusted Research Environments (Kick off)

Author

Chalstrey, Ed, Cole, Christian, Coleman, Sonya, Craddock, Matthew, Hetherington, James, Kerr, Dermot, Li, Simon, Madge, Jim, O'Donovan, Cian, Oldfield, Katie, O'Reilly, Martin, Sarmiento-Perez, David, Sood, Hari, and Swanepoel, Nel

Subjects
satre, university of dundee, university college london, secure research environment, alan turing institute, dare, tre, trusted research environment, secure development environment
Abstract

SATRE and the future UK landscape of Trusted Research Environments Standardised Architecture for Trusted Research Environments (SATRE) is a DARE UK Driver Project to build a reference TRE architecture and an accompanying implementation. DARE UK is a UKRI funded programme running five Driver Projects in 2023. The SATRE team are aiming to bridge gaps between current TRE provisions and move towards a more collaborative and standardised approach to running, deploying and managing TREs. Our priority for the project is to be informed by the needs, wants and aims of the TRE community - including policy makers, builders, operators, users and importantly the general public whose sensitive data are being used within TREs for research for the public good. Driving a standardised architecture for a federated data research environment As we start to deliver the initial stages on the project, we ran two kick-off sessions inviting the TRE community of builders, managers and implementers to share thoughts on our aims, approaches and principles, to help us shape the delivery of the project and ensure our outputs are shaped by a diverse range of voices across the TRE ecosystem., Grant: UK Research and Innovation: SATRE - Standardised Architecture for Trusted Research Environments

Published
2023
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43. Fast, Robust, Accurate, Multi-Body Motion Aware SLAM

Author

Yang, Linghao, Zhang, Yunzhou, Tian, Rui, Liang, Shiwen, Shen, You, Coleman, Sonya, and Kerr, Dermot

Abstract

Simultaneous ego localization and surrounding object motion awareness are significant issues for the navigation capability of unmanned systems and virtual-real interaction applications. Robust and accurate data association at object and feature levels is one of the key factors in solving this problem. However, currently available solutions ignore the complementarity among different cues in the front-end object association and the negative effects of poorly tracked features on the back-end optimization. It makes them not robust enough in practical applications. Motivated by these observations, we make up rigid environment as a unified whole to assist state decoupling by integrating high-level semantic information, ultimately enabling simultaneous multi-states estimation. A filter-based multi-cues fusion object tracker is proposed for establishing more stable object-level data association. Combined with the object’s motion priors, the motion-aided feature tracking algorithm is proposed to improve the feature-level data association performance. Furthermore, a novel state estimation factor graph is designed which integrates a specific feature observation uncertainty model and the intrinsic priors of tracked object, and solved through sliding-window optimization. Our system is evaluated using the KITTI dataset and achieves comparable performance to state-of-the-art object pose estimation systems both quantitatively and qualitatively. We have also validated our system on simulation environment and a real-world dataset to confirm the potential application value in different practical scenarios.

Published
2024
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44. Multilevel Feedback Joint Representation Learning Network Based on Adaptive Area Elimination for Cross-View Geo-Localization

Author

Ge, Fawei, Zhang, Yunzhou, Wang, Li, Liu, Wei, Liu, Yixiu, Coleman, Sonya, and Kerr, Dermot

Abstract

Cross-view geo-localization refers to the task of matching the same geographic target using images obtained from different platforms, such as drone-view and satellite-view. However, the view angle of images obtained through different platforms will vary greatly, which can bring great challenges to the cross-view geo-localization task. Therefore, we propose a multilevel feedback joint representation learning network based on adaptive area elimination to solve the cross-view geo-localization problem. In our network model, we first process the extracted global features to obtain part-level and patch-level features. We then utilize these features as feedback to the global features to extract the contextual information in the global features and improve the robustness of the extracted features. In addition, as images obtained from different platforms differ, there will always be some interference when matching images. Therefore, we introduce an adaptive area elimination strategy to erase the interference information in the global features and assist the model in obtaining crucial information. On this basis, the feature correlation loss function is designed to constrain learning when using global feature information, thereby eliminating possible interference, which can improve the network model performance. Finally, a series of experiments is carried out using two well-known benchmarks, namely, University-1652 and SUES-200, and the experimental results show that the proposed network model achieves competitive results, thereby demonstrating the effectiveness of the proposed model.

Published
2024
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45. Multibranch Joint Representation Learning Based on Information Fusion Strategy for Cross-View Geo-Localization

Author

Ge, Fawei, Zhang, Yunzhou, Liu, Yixiu, Wang, Guiyuan, Coleman, Sonya, Kerr, Dermot, and Wang, Li

Abstract

Cross-view geo-localization refers to recognizing images of the same geographic target obtained from different platforms (such as drone-view, satellite-view, and ground-view). However, cross-view geo-localization is challenging as image capture using different platforms coupled with extreme viewpoint variations can cause significant changes to the visual image content. Existing methods mainly focus on mining the fine-grained features or the contextual information in neighboring areas, but ignore the complete information of the entire image and the association of contextual information of adjacent regions. Therefore, a multibranch joint representation learning network model based on information fusion strategies (IFSs) is proposed to solve this cross-view geo-localization problem. First, we obtained feature information from the image through global information fusion (GIF) branch and local information fusion (LIF) branch to help the network learn the discernable information in the different images. In addition, a local-guided-GIF (LGGIF) branch is introduced to make local information assist global features to enhance the learning of potential information in the images. Second, we introduced different IFSs in each branch to increase the extraction of contextual information through expanding the global receptive field, thus improving the performance of the model. Finally, a series of experiments is carried out on four prevailing benchmark datasets, namely University-1652, SUES-200, CVUAS, and CVACT datasets. The quantitative comparisons from the experiments clearly indicate that the proposed network framework has great performance. For example, compared with some state-of-the-art methods, the quantitative improvements of the R@1 and AP on the University-1652 datasets are 1.91%, 2.18%, and 1.55%, 2.99% in both tasks, respectively.

Published
2024
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