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1. Magnetic Field induced control and Multiple Magnomechanically Induced Transparency in Single Cavity

Author

Din, Ghaisud, Abbas, Muqaddar, Wang, Yunlong, Wang, Feiran, and Zhang, Pei

Subjects
Physics - Optics
Abstract

We investigate magnomechanically induced transparency (MMIT) in a microwave 3D copper cavity with two YIG spheres under varying interaction parameters. Numerical simulations show that the steady-state magnon number increases with stronger coupling between cavity photons and magnons, and is sensitive to both bias and drive magnetic fields. Pronounced peaks in the magnon population near resonant fields highlight the importance of the bias field in energy transfer. The transparency windows are tunable, with up to quadruple windows depending on the coupling and magnon-phonon interactions, as seen in the transmission spectrum. Dispersion analysis reveals normal and anomalous regions, enabling slow and fast light propagation modulated by coupling strength. Phase and group delay variations, influenced by the drive field, further validate the tunability of transparency windows. This study demonstrates the potential of MMIT for precise control with out any additional non-linearity over light-matter interactions, with applications in quantum information processing and optical communications., Comment: pages=9, figures=12

Published
2025

2. PriorMotion: Generative Class-Agnostic Motion Prediction with Raster-Vector Motion Field Priors

Author

Qian, Kangan, Jiao, Xinyu, Shi, Yining, Wang, Yunlong, Luo, Ziang, Fu, Zheng, Jiang, Kun, and Yang, Diange

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

Reliable perception of spatial and motion information is crucial for safe autonomous navigation. Traditional approaches typically fall into two categories: object-centric and class-agnostic methods. While object-centric methods often struggle with missed detections, leading to inaccuracies in motion prediction, many class-agnostic methods focus heavily on encoder design, often overlooking important priors like rigidity and temporal consistency, leading to suboptimal performance, particularly with sparse LiDAR data at distant region. To address these issues, we propose $\textbf{PriorMotion}$, a generative framework that extracts rasterized and vectorized scene representations to model spatio-temporal priors. Our model comprises a BEV encoder, an Raster-Vector prior Encoder, and a Spatio-Temporal prior Generator, improving both spatial and temporal consistency in motion prediction. Additionally, we introduce a standardized evaluation protocol for class-agnostic motion prediction. Experiments on the nuScenes dataset show that PriorMotion achieves state-of-the-art performance, with further validation on advanced FMCW LiDAR confirming its robustness., Comment: 8 pages, 6 figures

Published
2024

3. Revealing Key Details to See Differences: A Novel Prototypical Perspective for Skeleton-based Action Recognition

Author

Liu, Hongda, Liu, Yunfan, Ren, Min, Wang, Hao, Wang, Yunlong, and Sun, Zhenan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In skeleton-based action recognition, a key challenge is distinguishing between actions with similar trajectories of joints due to the lack of image-level details in skeletal representations. Recognizing that the differentiation of similar actions relies on subtle motion details in specific body parts, we direct our approach to focus on the fine-grained motion of local skeleton components. To this end, we introduce ProtoGCN, a Graph Convolutional Network (GCN)-based model that breaks down the dynamics of entire skeleton sequences into a combination of learnable prototypes representing core motion patterns of action units. By contrasting the reconstruction of prototypes, ProtoGCN can effectively identify and enhance the discriminative representation of similar actions. Without bells and whistles, ProtoGCN achieves state-of-the-art performance on multiple benchmark datasets, including NTU RGB+D, NTU RGB+D 120, Kinetics-Skeleton, and FineGYM, which demonstrates the effectiveness of the proposed method. The code is available at https://github.com/firework8/ProtoGCN.

Published
2024

4. High Definition Map Mapping and Update: A General Overview and Future Directions

Author

Wijaya, Benny, Jiang, Kun, Yang, Mengmeng, Wen, Tuopu, Wang, Yunlong, Tang, Xuewei, Fu, Zheng, Zhou, Taohua, and Yang, Diange

Subjects
Computer Science - Robotics, Computer Science - Emerging Technologies
Abstract

Along with the rapid growth of autonomous vehicles (AVs), more and more demands are required for environment perception technology. Among others, HD mapping has become one of the more prominent roles in helping the vehicle realize essential tasks such as localization and path planning. While increasing research efforts have been directed toward HD Map development. However, a comprehensive overview of the overall HD map mapping and update framework is still lacking. This article introduces the development and current state of the algorithm involved in creating HD map mapping and its maintenance. As part of this study, the primary data preprocessing approach of processing raw data to information ready to feed for mapping and update purposes, semantic segmentation, and localization are also briefly reviewed. Moreover, the map taxonomy, ontology, and quality assessment are extensively discussed, the map data's general representation method is presented, and the mapping algorithm ranging from SLAM to transformers learning-based approaches are also discussed. The development of the HD map update algorithm, from change detection to the update methods, is also presented. Finally, the authors discuss possible future developments and the remaining challenges in HD map mapping and update technology. This paper simultaneously serves as a position paper and tutorial to those new to HD map mapping and update domains., Comment: 30 Pages, 13 figures

Published
2024

5. 6-DoF Grasp Detection in Clutter with Enhanced Receptive Field and Graspable Balance Sampling

Author

Wang, Hanwen, Zhang, Ying, Wang, Yunlong, and Li, Jian

Subjects
Computer Science - Robotics
Abstract

6-DoF grasp detection of small-scale grasps is crucial for robots to perform specific tasks. This paper focuses on enhancing the recognition capability of small-scale grasping, aiming to improve the overall accuracy of grasping prediction results and the generalization ability of the network. We propose an enhanced receptive field method that includes a multi-radii cylinder grouping module and a passive attention module. This method enhances the receptive field area within the graspable space and strengthens the learning of graspable features. Additionally, we design a graspable balance sampling module based on a segmentation network, which enables the network to focus on features of small objects, thereby improving the recognition capability of small-scale grasping. Our network achieves state-of-the-art performance on the GraspNet-1Billion dataset, with an overall improvement of approximately 10% in average precision@k (AP). Furthermore, we deployed our grasp detection model in pybullet grasping platform, which validates the effectiveness of our method., Comment: Accepted by IROS24

Published
2024

6. Harnessing LLMs for Automated Video Content Analysis: An Exploratory Workflow of Short Videos on Depression

Author

Liu, Jiaying Lizzy, Wang, Yunlong, Lyu, Yao, Su, Yiheng, Niu, Shuo, Xu, Xuhai Orson, and Zhang, Yan

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Computer Science - Computers and Society
Abstract

Despite the growing interest in leveraging Large Language Models (LLMs) for content analysis, current studies have primarily focused on text-based content. In the present work, we explored the potential of LLMs in assisting video content analysis by conducting a case study that followed a new workflow of LLM-assisted multimodal content analysis. The workflow encompasses codebook design, prompt engineering, LLM processing, and human evaluation. We strategically crafted annotation prompts to get LLM Annotations in structured form and explanation prompts to generate LLM Explanations for a better understanding of LLM reasoning and transparency. To test LLM's video annotation capabilities, we analyzed 203 keyframes extracted from 25 YouTube short videos about depression. We compared the LLM Annotations with those of two human coders and found that LLM has higher accuracy in object and activity Annotations than emotion and genre Annotations. Moreover, we identified the potential and limitations of LLM's capabilities in annotating videos. Based on the findings, we explore opportunities and challenges for future research and improvements to the workflow. We also discuss ethical concerns surrounding future studies based on LLM-assisted video analysis., Comment: 7 pages, 2 figures, accepted by CSCW 24

Published
2024
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7. Artificial Immune System of Secure Face Recognition Against Adversarial Attacks

Author

Ren, Min, Wang, Yunlong, Zhu, Yuhao, Huang, Yongzhen, Sun, Zhenan, Li, Qi, and Tan, Tieniu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Insect production for food and feed presents a promising supplement to ensure food safety and address the adverse impacts of agriculture on climate and environment in the future. However, optimisation is required for insect production to realise its full potential. This can be by targeted improvement of traits of interest through selective breeding, an approach which has so far been underexplored and underutilised in insect farming. Here we present a comprehensive review of the selective breeding framework in the context of insect production. We systematically evaluate adjustments of selective breeding techniques to the realm of insects and highlight the essential components integral to the breeding process. The discussion covers every step of a conventional breeding scheme, such as formulation of breeding objectives, phenotyping, estimation of genetic parameters and breeding values, selection of appropriate breeding strategies, and mitigation of issues associated with genetic diversity depletion and inbreeding. This review combines knowledge from diverse disciplines, bridging the gap between animal breeding, quantitative genetics, evolutionary biology, and entomology, offering an integrated view of the insect breeding research area and uniting knowledge which has previously remained scattered across diverse fields of expertise.

Published
2024
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8. EFFOcc: A Minimal Baseline for EFficient Fusion-based 3D Occupancy Network

Author

Shi, Yining, Jiang, Kun, Wang, Ke, Qian, Kangan, Wang, Yunlong, Li, Jiusi, Wen, Tuopu, Yang, Mengmeng, Xu, Yiliang, and Yang, Diange

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

3D occupancy prediction (Occ) is a rapidly rising challenging perception task in the field of autonomous driving which represents the driving scene as uniformly partitioned 3D voxel grids with semantics. Compared to 3D object detection, grid perception has great advantage of better recognizing irregularly shaped, unknown category, or partially occluded general objects. However, existing 3D occupancy networks (occnets) are both computationally heavy and label-hungry. In terms of model complexity, occnets are commonly composed of heavy Conv3D modules or transformers on the voxel level. In terms of label annotations requirements, occnets are supervised with large-scale expensive dense voxel labels. Model and data inefficiency, caused by excessive network parameters and label annotations requirement, severely hinder the onboard deployment of occnets. This paper proposes an efficient 3d occupancy network (EFFOcc), that targets the minimal network complexity and label requirement while achieving state-of-the-art accuracy. EFFOcc only uses simple 2D operators, and improves Occ accuracy to the state-of-the-art on multiple large-scale benchmarks: Occ3D-nuScenes, Occ3D-Waymo, and OpenOccupancy-nuScenes. On Occ3D-nuScenes benchmark, EFFOcc has only 18.4M parameters, and achieves 50.46 in terms of mean IoU (mIoU), to our knowledge, it is the occnet with minimal parameters compared with related occnets. Moreover, we propose a two-stage active learning strategy to reduce the requirements of labelled data. Active EFFOcc trained with 6\% labelled voxels achieves 47.19 mIoU, which is 95.7% fully supervised performance. The proposed EFFOcc also supports improved vision-only occupancy prediction with the aid of region-decomposed distillation. Code and demo videos will be available at https://github.com/synsin0/EFFOcc., Comment: preprint under review

Published
2024

9. PanoSSC: Exploring Monocular Panoptic 3D Scene Reconstruction for Autonomous Driving

Author

Shi, Yining, Li, Jiusi, Jiang, Kun, Wang, Ke, Wang, Yunlong, Yang, Mengmeng, and Yang, Diange

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Vision-centric occupancy networks, which represent the surrounding environment with uniform voxels with semantics, have become a new trend for safe driving of camera-only autonomous driving perception systems, as they are able to detect obstacles regardless of their shape and occlusion. Modern occupancy networks mainly focus on reconstructing visible voxels from object surfaces with voxel-wise semantic prediction. Usually, they suffer from inconsistent predictions of one object and mixed predictions for adjacent objects. These confusions may harm the safety of downstream planning modules. To this end, we investigate panoptic segmentation on 3D voxel scenarios and propose an instance-aware occupancy network, PanoSSC. We predict foreground objects and backgrounds separately and merge both in post-processing. For foreground instance grouping, we propose a novel 3D instance mask decoder that can efficiently extract individual objects. we unify geometric reconstruction, 3D semantic segmentation, and 3D instance segmentation into PanoSSC framework and propose new metrics for evaluating panoptic voxels. Extensive experiments show that our method achieves competitive results on SemanticKITTI semantic scene completion benchmark., Comment: 3dv2024

Published
2024
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14. A Smartphone App to Support Sedentary Behavior Change by Visualizing Personal Mobility Patterns and Action Planning (SedVis): Development and Pilot Study

Author

Wang, Yunlong, König, Laura M., and Reiterer, Harald

Subjects
Medicine
Abstract

BackgroundProlonged sedentary behavior is related to a number of risk factors for chronic diseases. Given the high prevalence of sedentary behavior in daily life, simple yet practical solutions for behavior change are needed to avoid detrimental health effects. ObjectiveThe mobile app SedVis was developed based on the health action process approach. The app provides personal mobility pattern visualization (for both physical activity and sedentary behavior) and action planning for sedentary behavior change. The primary aim of the study is to investigate the effect of mobility pattern visualization on users’ action planning for changing their sedentary behavior. The secondary aim is to evaluate user engagement with the visualization and user experience of the app. MethodsA 3-week user study was conducted with 16 participants who had the motivation to reduce their sedentary behavior. Participants were allocated to either an active control group (n=8) or an intervention group (n=8). In the 1-week baseline period, none of the participants had access to the functions in the app. In the following 2-week intervention period, only the intervention group was given access to the visualizations, whereas both groups were asked to make action plans every day and reduce their sedentary behavior. Participants’ sedentary behavior was estimated based on the sensor data of their smartphones, and their action plans and interaction with the app were also recorded by the app. Participants’ intention to change their sedentary behavior and user experience of the app were assessed using questionnaires. ResultsThe data were analyzed using both traditional null hypothesis significance testing (NHST) and Bayesian statistics. The results suggested that the visualizations in SedVis had no effect on the participants’ action planning according to both the NHST and Bayesian statistics. The intervention involving visualizations and action planning in SedVis had a positive effect on reducing participants’ sedentary hours, with weak evidence according to Bayesian statistics (Bayes factor, BF+0=1.92; median 0.52; 95% CI 0.04-1.25), whereas no change in sedentary time was more likely in the active control condition (BF+0=0.28; median 0.18; 95% CI 0.01-0.64). Furthermore, Bayesian analysis weakly suggested that the more frequently the users checked the app, the more likely they were to reduce their sedentary behavior (BF−0=1.49; r=−0.50). ConclusionsUsing a smartphone app to collect data on users’ mobility patterns and provide real-time feedback using visualizations may be a promising method to induce changes in sedentary behavior and may be more effective than action planning alone. Replications with larger samples are needed to confirm these findings.

Published
2021
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15. Three-Dimensional Path Planning Algorithm of UAV Based on Thermal Gradient

Author

Wang, Yunlong, Wan, Shaoke, Qiu, Rongcan, Fang, Yuanyang, Li, Xiaohu, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Lan, Xuguang, editor, Mei, Xuesong, editor, Jiang, Caigui, editor, Zhao, Fei, editor, and Tian, Zhiqiang, editor

Published
2025
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16. Research on the Optimization of Insulation Coordination of Substations with Continuous Lightning Strikes

Author

Li, Duanjiao, Sun, Wenxing, Liu, Jianming, Zhu, Ruifeng, Wang, Yunlong, Nie, Jianwen, Gao, Jiachen, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Yang, Qingxin, editor, Bie, Zhaohong, editor, and Yang, Xu, editor

Published
2025
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17. CLIP model is an Efficient Online Lifelong Learner

Author

Wang, Leyuan, Xiang, Liuyu, Wei, Yujie, Wang, Yunlong, and He, Zhaofeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Online Lifelong Learning (OLL) addresses the challenge of learning from continuous and non-stationary data streams. Existing online lifelong learning methods based on image classification models often require preset conditions such as the total number of classes or maximum memory capacity, which hinders the realization of real never-ending learning and renders them impractical for real-world scenarios. In this work, we propose that vision-language models, such as Contrastive Language-Image Pretraining (CLIP), are more suitable candidates for online lifelong learning. We discover that maintaining symmetry between image and text is crucial during Parameter-Efficient Tuning (PET) for CLIP model in online lifelong learning. To this end, we introduce the Symmetric Image-Text (SIT) tuning strategy. We conduct extensive experiments on multiple lifelong learning benchmark datasets and elucidate the effectiveness of SIT through gradient analysis. Additionally, we assess the impact of lifelong learning on generalizability of CLIP and found that tuning the image encoder is beneficial for lifelong learning, while tuning the text encoder aids in zero-shot learning.

Published
2024

18. Rethinking Class-Incremental Learning from a Dynamic Imbalanced Learning Perspective

Author

Wang, Leyuan, Xiang, Liuyu, Wang, Yunlong, Wu, Huijia, and He, Zhaofeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep neural networks suffer from catastrophic forgetting when continually learning new concepts. In this paper, we analyze this problem from a data imbalance point of view. We argue that the imbalance between old task and new task data contributes to forgetting of the old tasks. Moreover, the increasing imbalance ratio during incremental learning further aggravates the problem. To address the dynamic imbalance issue, we propose Uniform Prototype Contrastive Learning (UPCL), where uniform and compact features are learned. Specifically, we generate a set of non-learnable uniform prototypes before each task starts. Then we assign these uniform prototypes to each class and guide the feature learning through prototype contrastive learning. We also dynamically adjust the relative margin between old and new classes so that the feature distribution will be maintained balanced and compact. Finally, we demonstrate through extensive experiments that the proposed method achieves state-of-the-art performance on several benchmark datasets including CIFAR100, ImageNet100 and TinyImageNet.

Published
2024

19. An integer programming approach for quick-commerce assortment planning

Author

Chen, Yajing, He, Taotao, Rong, Ying, and Wang, Yunlong

Subjects
Mathematics - Optimization and Control
Abstract

In this paper, we explore the challenge of assortment planning in the context of quick-commerce, a rapidly-growing business model that aims to deliver time-sensitive products. In order to achieve quick delivery to satisfy the immediate demands of online customers in close proximity, personalized online assortments need to be included in brick-and-mortar store offerings. With the presence of this physical linkage requirement and distinct multinomial logit (MNL) choice models for online consumer segments, the firm seeks to maximize overall revenue by selecting an optimal assortment of products for local stores and by tailoring a personalized assortment for each online consumer segment. We refer to this problem as quick-commerce assortment planning (QAP). We employ an integer programming approach to solve this NP-hard problem to global optimality. Specifically, we propose convexification techniques to handle its combinatorial and nonconvex nature. We capture the consumer choice of each online segment using a convex hull representation. By exploiting the geometry behind Luce's choice axiom, we provide a compact polyhedral characterization of the convex hull under various operational constraints that are not totally-unimodular. Furthermore, we conduct a polyhedral study on the relation between assortment decisions for products to offer and choice probabilities of products under the MNL model.Our methodology, coupled with a modified choice probability ordered separation algorithm, yields formulations that provide a significant computational advantage over existing methods. Through comprehensive numerical studies, we emphasize the significance of aligning offline and online assortment decisions and underscore the perils associated with inaccurately specifying customer behavior models.

Published
2024

20. ToolEENet: Tool Affordance 6D Pose Estimation

Author

Wang, Yunlong, Zhang, Lei, Tu, Yuyang, Zhang, Hui, Bai, Kaixin, Chen, Zhaopeng, and Zhang, Jianwei

Subjects
Computer Science - Robotics
Abstract

The exploration of robotic dexterous hands utilizing tools has recently attracted considerable attention. A significant challenge in this field is the precise awareness of a tool's pose when grasped, as occlusion by the hand often degrades the quality of the estimation. Additionally, the tool's overall pose often fails to accurately represent the contact interaction, thereby limiting the effectiveness of vision-guided, contact-dependent activities. To overcome this limitation, we present the innovative TOOLEE dataset, which, to the best of our knowledge, is the first to feature affordance segmentation of a tool's end-effector (EE) along with its defined 6D pose based on its usage. Furthermore, we propose the ToolEENet framework for accurate 6D pose estimation of the tool's EE. This framework begins by segmenting the tool's EE from raw RGBD data, then uses a diffusion model-based pose estimator for 6D pose estimation at a category-specific level. Addressing the issue of symmetry in pose estimation, we introduce a symmetry-aware pose representation that enhances the consistency of pose estimation. Our approach excels in this field, demonstrating high levels of precision and generalization. Furthermore, it shows great promise for application in contact-based manipulation scenarios. All data and codes are available on the project website: https://tooleenet-iros2024.github.io/

Published
2024

28. A Survey on Monocular Re-Localization: From the Perspective of Scene Map Representation

Author

Miao, Jinyu, Jiang, Kun, Wen, Tuopu, Wang, Yunlong, Jia, Peijing, Zhao, Xuhe, Cheng, Qian, Xiao, Zhongyang, Huang, Jin, Zhong, Zhihua, and Yang, Diange

Subjects
Computer Science - Robotics
Abstract

Monocular Re-Localization (MRL) is a critical component in autonomous applications, estimating 6 degree-of-freedom ego poses w.r.t. the scene map based on monocular images. In recent decades, significant progress has been made in the development of MRL techniques. Numerous algorithms have accomplished extraordinary success in terms of localization accuracy and robustness. In MRL, scene maps are represented in various forms, and they determine how MRL methods work and how MRL methods perform. However, to the best of our knowledge, existing surveys do not provide systematic reviews about the relationship between MRL solutions and their used scene map representation. This survey fills the gap by comprehensively reviewing MRL methods from such a perspective, promoting further research. 1) We commence by delving into the problem definition of MRL, exploring current challenges, and comparing ours with existing surveys. 2) Many well-known MRL methods are categorized and reviewed into five classes according to the representation forms of utilized map, i.e., geo-tagged frames, visual landmarks, point clouds, vectorized semantic map, and neural network-based map. 3) To quantitatively and fairly compare MRL methods with various map, we introduce some public datasets and provide the performances of some state-of-the-art MRL methods. The strengths and weakness of MRL methods with different map are analyzed. 4) We finally introduce some topics of interest in this field and give personal opinions. This survey can serve as a valuable referenced materials for MRL, and a continuously updated summary of this survey is publicly available to the community at: https://github.com/jinyummiao/map-in-mono-reloc., Comment: 33 pages, 10 tables, 16 figures, under review

Published
2023

30. Balanced Representation Learning for Long-tailed Skeleton-based Action Recognition

Author

Liu, Hongda, Wang, Yunlong, Ren, Min, Hu, Junxing, Luo, Zhengquan, Hou, Guangqi, and Sun, Zhenan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Skeleton-based action recognition has recently made significant progress. However, data imbalance is still a great challenge in real-world scenarios. The performance of current action recognition algorithms declines sharply when training data suffers from heavy class imbalance. The imbalanced data actually degrades the representations learned by these methods and becomes the bottleneck for action recognition. How to learn unbiased representations from imbalanced action data is the key to long-tailed action recognition. In this paper, we propose a novel balanced representation learning method to address the long-tailed problem in action recognition. Firstly, a spatial-temporal action exploration strategy is presented to expand the sample space effectively, generating more valuable samples in a rebalanced manner. Secondly, we design a detached action-aware learning schedule to further mitigate the bias in the representation space. The schedule detaches the representation learning of tail classes from training and proposes an action-aware loss to impose more effective constraints. Additionally, a skip-modal representation is proposed to provide complementary structural information. The proposed method is validated on four skeleton datasets, NTU RGB+D 60, NTU RGB+D 120, NW-UCLA, and Kinetics. It not only achieves consistently large improvement compared to the state-of-the-art (SOTA) methods, but also demonstrates a superior generalization capacity through extensive experiments. Our code is available at https://github.com/firework8/BRL.

Published
2023

31. Multiscale Dynamic Graph Representation for Biometric Recognition with Occlusions

Author

Ren, Min, Wang, Yunlong, Zhu, Yuhao, Zhang, Kunbo, and Sun, Zhenan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Occlusion is a common problem with biometric recognition in the wild. The generalization ability of CNNs greatly decreases due to the adverse effects of various occlusions. To this end, we propose a novel unified framework integrating the merits of both CNNs and graph models to overcome occlusion problems in biometric recognition, called multiscale dynamic graph representation (MS-DGR). More specifically, a group of deep features reflected on certain subregions is recrafted into a feature graph (FG). Each node inside the FG is deemed to characterize a specific local region of the input sample, and the edges imply the co-occurrence of non-occluded regions. By analyzing the similarities of the node representations and measuring the topological structures stored in the adjacent matrix, the proposed framework leverages dynamic graph matching to judiciously discard the nodes corresponding to the occluded parts. The multiscale strategy is further incorporated to attain more diverse nodes representing regions of various sizes. Furthermore, the proposed framework exhibits a more illustrative and reasonable inference by showing the paired nodes. Extensive experiments demonstrate the superiority of the proposed framework, which boosts the accuracy in both natural and occlusion-simulated cases by a large margin compared with that of baseline methods., Comment: Accepted by TPAMI

Published
2023

32. NaMemo2: Facilitating Teacher-Student Interaction with Theory-Based Design and Student Autonomy Consideration

Author

Jiang, Guang, Zhu, Jiahui, Li, Yunsong, An, Pengcheng, and Wang, Yunlong

Subjects
Computer Science - Human-Computer Interaction
Abstract

Teacher-student interaction (TSI) is essential for learning efficiency and harmonious teacher-student interpersonal relationships. However, studies on TSI support tools often focus on teacher needs while neglecting student needs and autonomy. To enhance both lecturer competence in delivering interpersonal interaction and student autonomy in TSI, we developed NaMemo2, a novel augmented-reality system that allows students to express their willingness to TSI and displays student information to teachers during lectures. The design and evaluation process follows a new framework, STUDIER, which can facilitate the development of theory-based ethnics-aware TSI support tools in general. The quantitative results of our four-week field study with four classes in a university suggested that NaMemo2 can improve 1) TSI in the classroom from both teacher and student perspectives, 2) student attitudes and willingness to TSI, and 3) student attitudes to the deployment of NaMemo2. The qualitative feedback from students and teachers indicated that improving TSI may be responsible for improved attention in students and a better classroom atmosphere during lectures., Comment: This paper has been accepted in July 2023 for publication in Education and Information Technologies

Published
2023

33. Towards Trustworthy Explanation: On Causal Rationalization

Author

Zhang, Wenbo, Wu, Tong, Wang, Yunlong, Cai, Yong, and Cai, Hengrui

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Statistics - Methodology, Statistics - Machine Learning
Abstract

With recent advances in natural language processing, rationalization becomes an essential self-explaining diagram to disentangle the black box by selecting a subset of input texts to account for the major variation in prediction. Yet, existing association-based approaches on rationalization cannot identify true rationales when two or more snippets are highly inter-correlated and thus provide a similar contribution to prediction accuracy, so-called spuriousness. To address this limitation, we novelly leverage two causal desiderata, non-spuriousness and efficiency, into rationalization from the causal inference perspective. We formally define a series of probabilities of causation based on a newly proposed structural causal model of rationalization, with its theoretical identification established as the main component of learning necessary and sufficient rationales. The superior performance of the proposed causal rationalization is demonstrated on real-world review and medical datasets with extensive experiments compared to state-of-the-art methods., Comment: In Proceedings of the 40th International Conference on Machine Learning (ICML) GitHub Repository: https://github.com/onepounchman/Causal-Retionalization

Published
2023

34. Witnessing Quantum Incompatibility Structures in High-Dimensional Multimeasurement Systems

Author

Zhang, Xiaolin, Qu, Rui, Chang, Zehong, Wang, Yunlong, Guo, Zhenyu, An, Min, Gao, Hong, Li, Fuli, and Zhang, Pei

Subjects
Quantum Physics
Abstract

Quantum incompatibility, referred as the phenomenon that some quantum measurements cannot be performed simultaneously, is necessary for various quantum information processing tasks, such as nonlocality and steering. When these applications come to high-dimensional multimeasurement scenarios, it is crucial and challenging to witness the incompatibility of measurements with complex structures. To address this problem, we propose a modified quantum state discrimination protocol that decomposes complex compatibility structures into pairwise ones and employs noise robustness to bound incompatibility structures. We then derive arithmetic bounds for arbitrary measurements and analytical bounds for mutually unbiased bases, and capture some quantum incompatibility structures where measurements are partly compatible and partly incompatible. Finally, we experimentally demonstrate our results and connect them with quantum steering, quantum simulability and quantum communications., Comment: 7 pages, 4 figures

Published
2023

35. Effect of modified attention and interpretation therapy on fatigue and sleep quality in patients with post-stroke hemiplegia

Author

Cheng Jie, Chen Lu, Ma Qing, Zheng Siqi, Wang Yuhan, and Wang Yunlong

Subjects
attention and interpretation therapy, post-stroke hemiplegia, fatigue, sleep, Psychology, BF1-990, Psychiatry, RC435-571
Abstract

BackgroundPatients with post-stroke hemiplegia are likely to experience fatigue and sleep disorder. Attention and interpretation therapy (AIT) has been shown to promote psychological flexibility, thereby alleviating their stress, improving emotional management and somatopsychic adaptation. Currently, there is a lack of application of AIT in patients with post-stroke hemiplegia.ObjectiveTo explore the effect of modified AIT on fatigue and sleep quality in patients with post-stroke hemiplegia, so as to provide references for physical and mental rehabilitation nursing of post-stroke hemiplegia patients.MethodsA total of 120 patients with post-stroke hemiplegia attending the rehabilitation medicine department of North China University of Science and Technology Affiliated Hospital from August 1, 2021 to June 30, 2022 and fulfilling the Chinese guidelines for diagnosis and treatment of acute ischemic stroke 2018 and the Chinese guidelines for diagnosis and treatment of acute intracerebral hemorrhage 2019 were enrolled. Patients were assigned into two groups using random number table methods, each with 60 cases. Control group was given chronic illness trajectory model-based nursing, while study group received modified AIT intervention. All participants were evaluated using the Chinese version of Neurological Fatigue Index for Stroke (NFI-Stroke) and Pittsburgh Sleep Quality Index (PSQI) at the baseline, after 4 weeks and 8 weeks of intervention.ResultsThe repeated measures ANOVA on PSQI total score and scores on sleep quality, sleep time, sleep duration, sleep efficiency, sleep disturbance and daytime dysfunction revealed a significant group effect, time effect and interaction effect (Fgroup=4.281, 5.598, 8.814, 4.351, 4.302, 4.091, 7.608, Ftime=122.230, 19.698, 19.289, 16.403, 15.421, 28.879, 90.876, Finteraction=19.508, 3.227, 11.586, 5.237, 5.507, 5.799, 3.338, P

Published
2024
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36. Learning Explicit Contact for Implicit Reconstruction of Hand-held Objects from Monocular Images

Author

Hu, Junxing, Zhang, Hongwen, Chen, Zerui, Li, Mengcheng, Wang, Yunlong, Liu, Yebin, and Sun, Zhenan

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

Reconstructing hand-held objects from monocular RGB images is an appealing yet challenging task. In this task, contacts between hands and objects provide important cues for recovering the 3D geometry of the hand-held objects. Though recent works have employed implicit functions to achieve impressive progress, they ignore formulating contacts in their frameworks, which results in producing less realistic object meshes. In this work, we explore how to model contacts in an explicit way to benefit the implicit reconstruction of hand-held objects. Our method consists of two components: explicit contact prediction and implicit shape reconstruction. In the first part, we propose a new subtask of directly estimating 3D hand-object contacts from a single image. The part-level and vertex-level graph-based transformers are cascaded and jointly learned in a coarse-to-fine manner for more accurate contact probabilities. In the second part, we introduce a novel method to diffuse estimated contact states from the hand mesh surface to nearby 3D space and leverage diffused contact probabilities to construct the implicit neural representation for the manipulated object. Benefiting from estimating the interaction patterns between the hand and the object, our method can reconstruct more realistic object meshes, especially for object parts that are in contact with hands. Extensive experiments on challenging benchmarks show that the proposed method outperforms the current state of the arts by a great margin. Our code is publicly available at https://junxinghu.github.io/projects/hoi.html., Comment: Accepted to AAAI 2024.Code and model available at https://junxinghu.github.io/projects/hoi.html

Published
2023

37. Toward universal transformations of orbital angular momentum of a single photon

Author

Chen, Dong-Xu, Wang, Yunlong, Wang, Feiran, Zhao, Jun-Long, and Yang, Chui-Ping

Subjects
Quantum Physics
Abstract

High-dimensional quantum systems offer many advantages over low-dimensional quantum systems. Meanwhile, unitary transformations on quantum states are important parts in various quantum information tasks, whereas they become technically infeasible as the dimensionality increases. The photonic orbital angular momentum (OAM), which is inherit in the transverse spatial mode of photons, offers a natural carrier to encode information in high-dimensional spaces. However, it's even more challenging to realize arbitrary unitary transformations on the photonic OAM states. Here, by combining the path and OAM degrees of freedom of a single photon, an efficient scheme to realize arbitrary unitary transformations on the path-OAM coupled quantum states is proposed. The proposal reduces the number of required interferometers by approximately one quarter compared with previous works, while maintaining the symmetric structure. It is shown that by using OAM-to-path interfaces, this scheme can be utilized to realize arbitrary unitary transformations on the OAM states of photons. This work facilitates the development of high-dimension quantum state transformations, and opens a new door to the manipulation of the photonic OAM states., Comment: 10 pages, 8 figures

Published
2023
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38. Poses as Queries: Image-to-LiDAR Map Localization with Transformers

Author

Miao, Jinyu, Jiang, Kun, Wang, Yunlong, Wen, Tuopu, Xiao, Zhongyang, Fu, Zheng, Yang, Mengmeng, Liu, Maolin, and Yang, Diange

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

High-precision vehicle localization with commercial setups is a crucial technique for high-level autonomous driving tasks. Localization with a monocular camera in LiDAR map is a newly emerged approach that achieves promising balance between cost and accuracy, but estimating pose by finding correspondences between such cross-modal sensor data is challenging, thereby damaging the localization accuracy. In this paper, we address the problem by proposing a novel Transformer-based neural network to register 2D images into 3D LiDAR map in an end-to-end manner. Poses are implicitly represented as high-dimensional feature vectors called pose queries and can be iteratively updated by interacting with the retrieved relevant information from cross-model features using attention mechanism in a proposed POse Estimator Transformer (POET) module. Moreover, we apply a multiple hypotheses aggregation method that estimates the final poses by performing parallel optimization on multiple randomly initialized pose queries to reduce the network uncertainty. Comprehensive analysis and experimental results on public benchmark conclude that the proposed image-to-LiDAR map localization network could achieve state-of-the-art performances in challenging cross-modal localization tasks., Comment: 8 pages, 3 figures, 4 tables

Published
2023

39. CASIA-Iris-Africa: A Large-scale African Iris Image Database

Author

Muhammad, Jawad, Wang, Yunlong, Hu, Junxing, Zhang, Kunbo, and Sun, Zhenan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Iris biometrics is a phenotypic biometric trait that has proven to be agnostic to human natural physiological changes. Research on iris biometrics has progressed tremendously, partly due to publicly available iris databases. Various databases have been available to researchers that address pressing iris biometric challenges such as constraint, mobile, multispectral, synthetics, long-distance, contact lenses, liveness detection, etc. However, these databases mostly contain subjects of Caucasian and Asian docents with very few Africans. Despite many investigative studies on racial bias in face biometrics, very few studies on iris biometrics have been published, mainly due to the lack of racially diverse large-scale databases containing sufficient iris samples of Africans in the public domain. Furthermore, most of these databases contain a relatively small number of subjects and labelled images. This paper proposes a large-scale African database named CASIA-Iris-Africa that can be used as a complementary database for the iris recognition community to mediate the effect of racial biases on Africans. The database contains 28,717 images of 1023 African subjects (2046 iris classes) with age, gender, and ethnicity attributes that can be useful in demographically sensitive studies of Africans. Sets of specific application protocols are incorporated with the database to ensure the database's variability and scalability. Performance results of some open-source SOTA algorithms on the database are presented, which will serve as baseline performances. The relatively poor performances of the baseline algorithms on the proposed database despite better performance on other databases prove that racial biases exist in these iris recognition algorithms. The database will be made available on our website: http://www.idealtest.org., Comment: This paper has been accepted for publication in Machine Intelligence Research Journal (MIR)

Published
2023

40. StreamingFlow: Streaming Occupancy Forecasting with Asynchronous Multi-modal Data Streams via Neural Ordinary Differential Equation

Author

Shi, Yining, Jiang, Kun, Wang, Ke, Li, Jiusi, Wang, Yunlong, Yang, Mengmeng, and Yang, Diange

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Predicting the future occupancy states of the surrounding environment is a vital task for autonomous driving. However, current best-performing single-modality methods or multi-modality fusion perception methods are only able to predict uniform snapshots of future occupancy states and require strictly synchronized sensory data for sensor fusion. We propose a novel framework, StreamingFlow, to lift these strong limitations. StreamingFlow is a novel BEV occupancy predictor that ingests asynchronous multi-sensor data streams for fusion and performs streaming forecasting of the future occupancy map at any future timestamps. By integrating neural ordinary differential equations (N-ODE) into recurrent neural networks, StreamingFlow learns derivatives of BEV features over temporal horizons, updates the implicit sensor's BEV features as part of the fusion process, and propagates BEV states to the desired future time point. It shows good zero-shot generalization ability of prediction, reflected in the interpolation of the observed prediction time horizon and the reasonable inference of the unseen farther future period. Extensive experiments on two large-scale datasets, nuScenes and Lyft L5, demonstrate that StreamingFlow significantly outperforms previous vision-based, LiDAR-based methods, and shows superior performance compared to state-of-the-art fusion-based methods., Comment: cvpr2024 poster (highlight), code at https://github.com/synsin0/StreamingFlow

Published
2023

41. RePrompt: Automatic Prompt Editing to Refine AI-Generative Art Towards Precise Expressions

Author

Wang, Yunlong, Shen, Shuyuan, and Lim, Brian Y.

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence
Abstract

Generative AI models have shown impressive ability to produce images with text prompts, which could benefit creativity in visual art creation and self-expression. However, it is unclear how precisely the generated images express contexts and emotions from the input texts. We explored the emotional expressiveness of AI-generated images and developed RePrompt, an automatic method to refine text prompts toward precise expression of the generated images. Inspired by crowdsourced editing strategies, we curated intuitive text features, such as the number and concreteness of nouns, and trained a proxy model to analyze the feature effects on the AI-generated image. With model explanations of the proxy model, we curated a rubric to adjust text prompts to optimize image generation for precise emotion expression. We conducted simulation and user studies, which showed that RePrompt significantly improves the emotional expressiveness of AI-generated images, especially for negative emotions., Comment: To appear in Proceedings of the 2023 CHI Conference on Human Factors in Computing Systems (CHI '23)

Published
2023
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42. Electric field tuning of magnetic states in single magnetic molecules

Author

Lu, Yan, Wang, Yunlong, Zhu, Linghan, Yang, Li, and Wang, Li

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Single magnetic molecules may be the smallest functional magnets. An electric-field controllable spin state of magnetic molecules is of fundamental importance for applications while its realization remains challenging. To date the observed spin-electric interaction based on spin-orbit coupling or spin dipole coupling is useful to tune fine spin structures but too weak to flip the spin state. In this work, we propose a new mechanism to realize enhanced spin-electric coupling and flip the spin states by tuning the spin superexchange between local spins. Using first-principles calculations and Heisenberg Hamiltonian, we demonstrate this effect in a family of magnetic molecules, transition metallic Porphyrins. We show that their d-{\pi} and {\pi}-{\pi} spin superexchange couplings are determined by the relative energies of d and {\pi} electronic states, which are sensitive to the applied electric field. Therefore, applying electric field can tune a wide range of magnetic ground states, including ferromagnetic, ferrimagnetic, and antiferromagnetic configurations. This spin-electric coupling may provide a new approach for designing and controlling molecular spintronics., Comment: 21 pages, 7 figures

Published
2022
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43. Novel superhard structures of high-pressure C-N compounds

Author

Wang, Yunlong, Ding, Chi, Yuan, Jianan, and Sun, Jian

Subjects
Condensed Matter - Materials Science
Abstract

Through machine learning force field accelerated structure search combined with first-principles calculations, we have studied the structures of new C-N compounds with different stoichiometric ratios, and found twelve new superhard C-N compounds, the energies of these structures are similar to c-C3N4 , which is possibly synthesized by high pressure experiment, the XRD of Pa-3(C4N) P3(C4N) and C2/m(C2N) are consistent with previous experimental data and can be used as the structural candidate. According to the macro hardness model, they are all superhard structures, with Vickers hardness over 40GPa, even, the hardness of Pa-3 (C4N) as high as 82.2GPa, and Pa-3 (C4N) combines high tensile and shear resistance. Compared with the hardness calculated by macro hardness model and bond resistance model, we obtained the relationship between the hardness and chemical concentration of C-N compounds under the two models, besides that, we also calculated the fracture toughness of these structures. According to Niu's model, P2_1/c(C4N) has the best fracture toughness, which is higher than WC in calculation, This also indicated the superior mechanical properties of the novel C-N compounds. Moreover, for nitrogen-rich structures, they have the potential to be used as high energy density, the energy density of Pa-3(CN3), P-3c1 (CN4), and I-42d (CN4) are 7.076kJ/g, 7.742kJ/g and 8.045kJ/g, which is close or higher than CL-20, therefore, the C-N compounds synthesized under high pressure have great potential as ideally superhard materials and high energy density materials(HEDMs)., Comment: The reason is that some data and language expressions in the article need further polishing, and the content has changed a lot

Published
2022

44. Noval Si-C Compounds with High Thermal Conductivity under TPa in Planetary Interior

Author

Wang, Yunlong and Sun, Jian

Subjects
Condensed Matter - Materials Science, Condensed Matter - Other Condensed Matter, Physics - Computational Physics
Abstract

Silicon carbide has excellent physical properties, such as high stability, thermal conductivity, and mechanical strength. It has been widely used in high-power devices, catalysis, material processing, and other fields and is of great significance in basic discipline research. We used crystal structure search and first principles calculation to predict four new silicon carbide structures stabilized within 3TPa. Pnma (SiC) replaces B1 (SiC) above 2.6TPa, and the new component Si3C2 becomes the most stable after 2.5TPa. P4/mbm phase Si3C2 under high pressure has electrode characteristics. The silicon-carbide structure is metallic in the study pressure range, and the electrons contribute most of the thermal conductivity, which is of great significance for the thermal evolution of silicon-carbide-like terrestrial planets. In addition, we propose a new silicon carbide planetary model and calculate the sound velocity of Si3C2 under TPa. Therefore, our research has deepened the understanding of silicon-carbide terrestrial planets' internal structure and thermal evolution, explored the complex silicon-carbide phase space, and enriched the silicon-carbide phase diagram., Comment: need polish

Published
2022

48. Pancreatic islets implanted in an irreversible electroporation generated extracellular matrix in the liver

Author

Zhang, Yanfang, Lv, Yanpeng, Wang, Yunlong, Chang, Tammy T, and Rubinsky, Boris

Subjects
Liver Disease, Diabetes, Digestive Diseases, Autoimmune Disease, Transplantation, Metabolic and endocrine, Rats, Animals, Glucagon, Liver, Islets of Langerhans, Insulin, Extracellular Matrix, Electroporation, liver cancer, pancreatic islet transplantation, non-thermal irreversible electroporation, tissue engineering, diabetes, Oncology & Carcinogenesis
Abstract

BackgroundPancreatic islet transplantation via infusion through the portal vein, has become an established clinical treatment for patients with type 1 diabetes. Because the engraftment efficiency is low, new approaches for pancreatic islets implantation are sought. The goal of this study is to explore the possibility that a non-thermal irreversible electroporation (NTIRE) decellularized matrix in the liver could be used as an engraftment site for pancreatic islets.Materials and methodsPancreatic islets or saline controls were injected at sites pre-treated with NTIRE in the livers of 7 rats, 16 hours after NTIRE treatment. Seven days after the NTIRE treatment, islet graft function was assessed by detecting insulin and glucagon in the liver with immunohistochemistry.ResultsPancreatic islets implanted into a NTIRE-treated volume of liver became incorporated into the liver parenchyma and produced insulin and glucagon in 2 of the 7 rat livers. Potential reasons for the failure to observe pancreatic islets in the remaining 5/7 rats may include local inflammatory reaction, graft rejection, low numbers of starting islets, timing of implantation.ConclusionsThis study shows that pancreatic islets can become incorporated and function in an NTIRE-generated extracellular matrix niche, albeit the success rate is low. Advances in the field could be achieved by developing a better understanding of the mechanisms of failure and ways to combat these mechanisms.

Published
2023

50. Study on Matching Characteristics of Pre-cooling Air Turbo Rocket Engine

Author

Wang, Yunlong, Miao, Huihui, Yong, Xuejun, Wang, Yi, Liu, Yi, Ma, Yuan, Zhao, Xiaotian, Liu, Jinxin, Nan, Xiangyi, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, and Fu, Song, editor

Published
2024
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