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493 results on '"Li, Ruiyu"'

1. CCUP: A Controllable Synthetic Data Generation Pipeline for Pretraining Cloth-Changing Person Re-Identification Models

Author

Zhao, Yujian, Wu, Chengru, Xu, Yinong, Du, Xuanzheng, Li, Ruiyu, and Niu, Guanglin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Cloth-changing person re-identification (CC-ReID), also known as Long-Term Person Re-Identification (LT-ReID) is a critical and challenging research topic in computer vision that has recently garnered significant attention. However, due to the high cost of constructing CC-ReID data, the existing data-driven models are hard to train efficiently on limited data, causing overfitting issue. To address this challenge, we propose a low-cost and efficient pipeline for generating controllable and high-quality synthetic data simulating the surveillance of real scenarios specific to the CC-ReID task. Particularly, we construct a new self-annotated CC-ReID dataset named Cloth-Changing Unreal Person (CCUP), containing 6,000 IDs, 1,179,976 images, 100 cameras, and 26.5 outfits per individual. Based on this large-scale dataset, we introduce an effective and scalable pretrain-finetune framework for enhancing the generalization capabilities of the traditional CC-ReID models. The extensive experiments demonstrate that two typical models namely TransReID and FIRe^2, when integrated into our framework, outperform other state-of-the-art models after pretraining on CCUP and finetuning on the benchmarks such as PRCC, VC-Clothes and NKUP. The CCUP is available at: https://github.com/yjzhao1019/CCUP.

Published
2024

5. Explainable Action Advising for Multi-Agent Reinforcement Learning

Author

Guo, Yue, Campbell, Joseph, Stepputtis, Simon, Li, Ruiyu, Hughes, Dana, Fang, Fei, and Sycara, Katia

Subjects
Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Multiagent Systems, Computer Science - Robotics
Abstract

Action advising is a knowledge transfer technique for reinforcement learning based on the teacher-student paradigm. An expert teacher provides advice to a student during training in order to improve the student's sample efficiency and policy performance. Such advice is commonly given in the form of state-action pairs. However, it makes it difficult for the student to reason with and apply to novel states. We introduce Explainable Action Advising, in which the teacher provides action advice as well as associated explanations indicating why the action was chosen. This allows the student to self-reflect on what it has learned, enabling advice generalization and leading to improved sample efficiency and learning performance - even in environments where the teacher is sub-optimal. We empirically show that our framework is effective in both single-agent and multi-agent scenarios, yielding improved policy returns and convergence rates when compared to state-of-the-art methods, Comment: This work has been published by ICRA 2023(979-8-3503-2365-8/23/$31.00 copyright 2023 IEEE)

Published
2022

10. Leveraging the Graph Structure of Neural Network Training Dynamics

Author

Vahedian, Fatemeh, Li, Ruiyu, Trivedi, Puja, Jin, Di, and Koutra, Danai

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Understanding the training dynamics of deep neural networks (DNNs) is important as it can lead to improved training efficiency and task performance. Recent works have demonstrated that representing the wirings of static graph cannot capture how DNNs change over the course of training. Thus, in this work, we propose a compact, expressive temporal graph framework that effectively captures the dynamics of many workhorse architectures in computer vision. Specifically, it extracts an informative summary of graph properties (e.g., eigenvector centrality) over a sequence of DNN graphs obtained during training. We demonstrate that our framework captures useful dynamics by accurately predicting trained, task performance when using a summary over early training epochs (<5) across four different architectures and two image datasets. Moreover, by using a novel, highly-scalable DNN graph representation, we also show that the proposed framework captures generalizable dynamics as summaries extracted from smaller-width networks are effective when evaluated on larger widths.

Published
2021

11. Nano-imaging of the edge-dependent optical polarization anisotropy of black phosphorus

Author

Joshi, Prakriti P., Li, Ruiyu, Spellberg, Joseph L., Liang, Liangbo, and King, Sarah B.

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

The electronic structure and functionality of 2D materials is highly sensitive to structural morphology, opening the possibility for manipulating material properties, but also making predictable and reproducible functionality challenging. Black phosphorus (BP), a corrugated orthorhombic 2D material, has in-plane optical absorption anisotropy critical for applications such as directional photonics, plasmonics, and waveguides. Here, we use polarization-dependent photoemission electron microscopy to visualize the anisotropic optical absorption of BP with 54 nm spatial resolution. We find the edges of BP flakes have a shift in their optical polarization anisotropy from the flake interior due to the 1D confinement and symmetry reduction at flake edges that alter the electronic charge distributions and transition dipole moments of edge electronic states, confirmed with first-principles calculations. These results uncover previously hidden modification of the polarization-dependent absorbance at the edges of BP, highlighting the opportunity for selective excitation of edge states of 2D materials with polarized light., Comment: 13 pages, 6 figures

Published
2021
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19. Study on the Performance of Regional Characteristic Visual Element in Packaging Design

Author

Li, Ruiyu, Striełkowski, Wadim, Editor-in-Chief, Black, Jessica M., Series Editor, Butterfield, Stephen A., Series Editor, Chang, Chi-Cheng, Series Editor, Cheng, Jiuqing, Series Editor, Dumanig, Francisco Perlas, Series Editor, Al-Mabuk, Radhi, Series Editor, Scheper-Hughes, Nancy, Series Editor, Urban, Mathias, Series Editor, Webb, Stephen, Series Editor, M. Dom, Mohd Fauzi bin Sedon, editor, Zabielskis, Peter Thomas, editor, Liu, Xudong, editor, and Liu, Xiao, editor

Published
2023
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22. Prior Guided Feature Enrichment Network for Few-Shot Segmentation

Author

Tian, Zhuotao, Zhao, Hengshuang, Shu, Michelle, Yang, Zhicheng, Li, Ruiyu, and Jia, Jiaya

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

State-of-the-art semantic segmentation methods require sufficient labeled data to achieve good results and hardly work on unseen classes without fine-tuning. Few-shot segmentation is thus proposed to tackle this problem by learning a model that quickly adapts to new classes with a few labeled support samples. Theses frameworks still face the challenge of generalization ability reduction on unseen classes due to inappropriate use of high-level semantic information of training classes and spatial inconsistency between query and support targets. To alleviate these issues, we propose the Prior Guided Feature Enrichment Network (PFENet). It consists of novel designs of (1) a training-free prior mask generation method that not only retains generalization power but also improves model performance and (2) Feature Enrichment Module (FEM) that overcomes spatial inconsistency by adaptively enriching query features with support features and prior masks. Extensive experiments on PASCAL-5$^i$ and COCO prove that the proposed prior generation method and FEM both improve the baseline method significantly. Our PFENet also outperforms state-of-the-art methods by a large margin without efficiency loss. It is surprising that our model even generalizes to cases without labeled support samples. Our code is available at https://github.com/Jia-Research-Lab/PFENet/., Comment: 16 pages. To appear in TPAMI

Published
2020

23. Tensor Low-Rank Reconstruction for Semantic Segmentation

Author

Chen, Wanli, Zhu, Xinge, Sun, Ruoqi, He, Junjun, Li, Ruiyu, Shen, Xiaoyong, and Yu, Bei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Context information plays an indispensable role in the success of semantic segmentation. Recently, non-local self-attention based methods are proved to be effective for context information collection. Since the desired context consists of spatial-wise and channel-wise attentions, 3D representation is an appropriate formulation. However, these non-local methods describe 3D context information based on a 2D similarity matrix, where space compression may lead to channel-wise attention missing. An alternative is to model the contextual information directly without compression. However, this effort confronts a fundamental difficulty, namely the high-rank property of context information. In this paper, we propose a new approach to model the 3D context representations, which not only avoids the space compression but also tackles the high-rank difficulty. Here, inspired by tensor canonical-polyadic decomposition theory (i.e, a high-rank tensor can be expressed as a combination of rank-1 tensors.), we design a low-rank-to-high-rank context reconstruction framework (i.e, RecoNet). Specifically, we first introduce the tensor generation module (TGM), which generates a number of rank-1 tensors to capture fragments of context feature. Then we use these rank-1 tensors to recover the high-rank context features through our proposed tensor reconstruction module (TRM). Extensive experiments show that our method achieves state-of-the-art on various public datasets. Additionally, our proposed method has more than 100 times less computational cost compared with conventional non-local-based methods., Comment: ECCV2020. Top-1 performance on PASCAL-VOC12; Source code at https://github.com/CWanli/RecoNet.git

Published
2020

24. An Adversarial Perturbation Oriented Domain Adaptation Approach for Semantic Segmentation

Author

Yang, Jihan, Xu, Ruijia, Li, Ruiyu, Qi, Xiaojuan, Shen, Xiaoyong, Li, Guanbin, and Lin, Liang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We focus on Unsupervised Domain Adaptation (UDA) for the task of semantic segmentation. Recently, adversarial alignment has been widely adopted to match the marginal distribution of feature representations across two domains globally. However, this strategy fails in adapting the representations of the tail classes or small objects for semantic segmentation since the alignment objective is dominated by head categories or large objects. In contrast to adversarial alignment, we propose to explicitly train a domain-invariant classifier by generating and defensing against pointwise feature space adversarial perturbations. Specifically, we firstly perturb the intermediate feature maps with several attack objectives (i.e., discriminator and classifier) on each individual position for both domains, and then the classifier is trained to be invariant to the perturbations. By perturbing each position individually, our model treats each location evenly regardless of the category or object size and thus circumvents the aforementioned issue. Moreover, the domain gap in feature space is reduced by extrapolating source and target perturbed features towards each other with attack on the domain discriminator. Our approach achieves the state-of-the-art performance on two challenging domain adaptation tasks for semantic segmentation: GTA5 -> Cityscapes and SYNTHIA -> Cityscapes., Comment: To Appear in AAAI2020

Published
2019

31. Federated Learning with Unbiased Gradient Aggregation and Controllable Meta Updating

Author

Yao, Xin, Huang, Tianchi, Zhang, Rui-Xiao, Li, Ruiyu, and Sun, Lifeng

Subjects
Computer Science - Machine Learning, Computer Science - Distributed, Parallel, and Cluster Computing, Statistics - Machine Learning
Abstract

Federated learning (FL) aims to train machine learning models in the decentralized system consisting of an enormous amount of smart edge devices. Federated averaging (FedAvg), the fundamental algorithm in FL settings, proposes on-device training and model aggregation to avoid the potential heavy communication costs and privacy concerns brought by transmitting raw data. However, through theoretical analysis we argue that 1) the multiple steps of local updating will result in gradient biases and 2) there is an inconsistency between the expected target distribution and the optimization objectives following the training paradigm in FedAvg. To tackle these problems, we first propose an unbiased gradient aggregation algorithm with the keep-trace gradient descent and the gradient evaluation strategy. Then we introduce an additional controllable meta updating procedure with a small set of data samples, indicating the expected target distribution, to provide a clear and consistent optimization objective. Both the two improvements are model- and task-agnostic and can be applied individually or together. Experimental results demonstrate that the proposed methods are faster in convergence and achieve higher accuracy with different network architectures in various FL settings., Comment: This manuscript has been accepted to the Workshop on Federated Learning for Data Privacy and Confidentiality (FL - NeurIPS 2019, in Conjunction with NeurIPS 2019)

Published
2019

32. Reflective Decoding Network for Image Captioning

Author

Ke, Lei, Pei, Wenjie, Li, Ruiyu, Shen, Xiaoyong, and Tai, Yu-Wing

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

State-of-the-art image captioning methods mostly focus on improving visual features, less attention has been paid to utilizing the inherent properties of language to boost captioning performance. In this paper, we show that vocabulary coherence between words and syntactic paradigm of sentences are also important to generate high-quality image caption. Following the conventional encoder-decoder framework, we propose the Reflective Decoding Network (RDN) for image captioning, which enhances both the long-sequence dependency and position perception of words in a caption decoder. Our model learns to collaboratively attend on both visual and textual features and meanwhile perceive each word's relative position in the sentence to maximize the information delivered in the generated caption. We evaluate the effectiveness of our RDN on the COCO image captioning datasets and achieve superior performance over the previous methods. Further experiments reveal that our approach is particularly advantageous for hard cases with complex scenes to describe by captions., Comment: ICCV 2019

Published
2019

33. Region Refinement Network for Salient Object Detection

Author

Tian, Zhuotao, Zhao, Hengshuang, Shu, Michelle, Wang, Jiaze, Li, Ruiyu, Shen, Xiaoyong, and Jia, Jiaya

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Albeit intensively studied, false prediction and unclear boundaries are still major issues of salient object detection. In this paper, we propose a Region Refinement Network (RRN), which recurrently filters redundant information and explicitly models boundary information for saliency detection. Different from existing refinement methods, we propose a Region Refinement Module (RRM) that optimizes salient region prediction by incorporating supervised attention masks in the intermediate refinement stages. The module only brings a minor increase in model size and yet significantly reduces false predictions from the background. To further refine boundary areas, we propose a Boundary Refinement Loss (BRL) that adds extra supervision for better distinguishing foreground from background. BRL is parameter free and easy to train. We further observe that BRL helps retain the integrity in prediction by refining the boundary. Extensive experiments on saliency detection datasets show that our refinement module and loss bring significant improvement to the baseline and can be easily applied to different frameworks. We also demonstrate that our proposed model generalizes well to portrait segmentation and shadow detection tasks., Comment: Tech report

Published
2019

34. 2D Attentional Irregular Scene Text Recognizer

Author

Lyu, Pengyuan, Yang, Zhicheng, Leng, Xinhang, Wu, Xiaojun, Li, Ruiyu, and Shen, Xiaoyong

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Irregular scene text, which has complex layout in 2D space, is challenging to most previous scene text recognizers. Recently, some irregular scene text recognizers either rectify the irregular text to regular text image with approximate 1D layout or transform the 2D image feature map to 1D feature sequence. Though these methods have achieved good performance, the robustness and accuracy are still limited due to the loss of spatial information in the process of 2D to 1D transformation. Different from all of previous, we in this paper propose a framework which transforms the irregular text with 2D layout to character sequence directly via 2D attentional scheme. We utilize a relation attention module to capture the dependencies of feature maps and a parallel attention module to decode all characters in parallel, which make our method more effective and efficient. Extensive experiments on several public benchmarks as well as our collected multi-line text dataset show that our approach is effective to recognize regular and irregular scene text and outperforms previous methods both in accuracy and speed.

Published
2019

39. Facelet-Bank for Fast Portrait Manipulation

Author

Chen, Ying-Cong, Lin, Huaijia, Shu, Michelle, Li, Ruiyu, Tao, Xin, Ye, Yangang, Shen, Xiaoyong, and Jia, Jiaya

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Digital face manipulation has become a popular and fascinating way to touch images with the prevalence of smartphones and social networks. With a wide variety of user preferences, facial expressions, and accessories, a general and flexible model is necessary to accommodate different types of facial editing. In this paper, we propose a model to achieve this goal based on an end-to-end convolutional neural network that supports fast inference, edit-effect control, and quick partial-model update. In addition, this model learns from unpaired image sets with different attributes. Experimental results show that our framework can handle a wide range of expressions, accessories, and makeup effects. It produces high-resolution and high-quality results in fast speed., Comment: Accepted by CVPR 2018. Code is available on https://github.com/yingcong/Facelet_Bank

Published
2018

40. Situation Recognition with Graph Neural Networks

Author

Li, Ruiyu, Tapaswi, Makarand, Liao, Renjie, Jia, Jiaya, Urtasun, Raquel, and Fidler, Sanja

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

We address the problem of recognizing situations in images. Given an image, the task is to predict the most salient verb (action), and fill its semantic roles such as who is performing the action, what is the source and target of the action, etc. Different verbs have different roles (e.g. attacking has weapon), and each role can take on many possible values (nouns). We propose a model based on Graph Neural Networks that allows us to efficiently capture joint dependencies between roles using neural networks defined on a graph. Experiments with different graph connectivities show that our approach that propagates information between roles significantly outperforms existing work, as well as multiple baselines. We obtain roughly 3-5% improvement over previous work in predicting the full situation. We also provide a thorough qualitative analysis of our model and influence of different roles in the verbs., Comment: ICCV2017

Published
2017

41. Numerical Simulation of the HIsmelt Main Reactor for Optimizing Heat Transfer and Combustion at Different Hot Air Oxygen Contents and Daily Iron Production.

Author

Pang, Jing, Wang, Zhenyang, Li, Ruiyu, and Zhang, Jianliang

Subjects
ATMOSPHERIC oxygen, HEAT of combustion, PULVERIZED coal, HEAT conduction, IRON ores
Abstract

The HIsmelt process uses pulverized coal and iron ore as raw materials, eliminating the need for coking and iron ore lumping compared to traditional blast furnace ironmaking processes, and significantly reducing CO2 and other pollutants emissions. However, as a new ironmaking process, the flow field, heat transfer, and combustion influencing factors of the main reactor are not resolved. Therefore, in this study, based on the consideration of fluid mechanics, heat conduction, and combustion reaction, a two-dimensional mathematical model was developed for the upper space of SRV (smelting reduction vessel), the main reactor of the HIsmelt ironmaking process, based on actual production data. The effects of hot air oxygen content and daily iron production on the velocity field, temperature field, and CO2 content field inside the SRV were investigated. The results show that as the oxygen content of hot air increases, the central airflow in the furnace develops downward, the gas temperature rises gradually, and the CO2 mass fraction generally shows a rising trend. When the daily output of iron increases, the velocity of airflow in the furnace decreases significantly, the gyratory zone moves upward; the high-temperature distribution zone in the furnace contracts; and the CO2 mass fraction decreases. [ABSTRACT FROM AUTHOR]

Published
2024
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43. Blunted sensitivity to expected value during risky decision making in individuals with problematic pornography use.

Author

Wang, Jianfeng, Qu, Shuangyi, Li, Ruiyu, Tang, Shaoyue, and Li, Hong

Subjects
REWARD (Psychology), EVOKED potentials (Electrophysiology), DECISION making, PORNOGRAPHY, VALUATION
Abstract

Neurobiological models of addiction posit that addiction manifests through an amplified salience towards addiction-associated stimuli and a diminished responsiveness to non-addiction-related incentives. However, existing research on reward processing in individuals with problematic pornography use (PPU) has primarily been limited to sexual cue reactivity. In this event-related potential (ERP) study, we employed a risky decision-making task involving 30 individuals with PPU and 33 healthy controls (HCs) to examine the effects of PPU on non-pornographic (money) reward valuation. Compared to HCs, individuals with PPU exhibited compromised sensitivity to monetary rewards. Specifically, while the HC group demonstrated a differential response in late positive potential (LPP) amplitude to various expected value (EV) levels, this pattern was absent in the PPU group. This impairment was associated with poorer adaptive decision-making, as evidenced by PPU participants' inability to adjust risk choices based on changes in EV, leading to a propensity for riskier decisions in disadvantageous situations. The findings of impaired monetary evaluation in individuals with PPU may potentially explain why they continually pursue pornographic rewards while showing insensitivity to other rewards in daily life. Consequently, treatment development strategies may prioritize improving sensitivity to non-pornographic rewards within this population. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Experimental Data-Driven Flow Field Prediction for Compressor Cascade based on Deep Learning and ℓ1 Regularization.

Author

Liu, Tantao, Gao, Limin, and Li, Ruiyu

Abstract

For complex flows in compressors containing flow separations and adverse pressure gradients, the numerical simulation results based on Reynolds-averaged Navier-Stokes (RANS) models often deviate from experimental measurements more or less. To improve the prediction accuracy and reduce the difference between the RANS prediction results and experimental measurements, an experimental data-driven flow field prediction method based on deep learning and ℓ1 regularization is proposed and applied to a compressor cascade flow field. The inlet boundary conditions and turbulence model parameters are calibrated to obtain the high-fidelity flow fields. The Saplart-Allmaras and SST turbulence models are used independently for mutual validation. The contributions of key modified parameters are also analyzed via sensitivity analysis. The results show that the prediction error can be reduced by nearly 70% based on the proposed algorithm. The flow fields predicted by the two calibrated turbulence models are almost the same and nearly independent of the turbulence models. The corrections of the inlet boundary conditions reduce the error in the first half of the chord. The turbulence model calibrations fix the overprediction of flow separation on the suction surface near the tail edge. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Research on the Dynamic Evolution of Social Risks in Community Renewal Projects: Considering the Coupling Effects of Factors.

Author

Sun, Hui, Wang, Yihan, Li, Ruiyu, Wu, Huicang, and Wang, Yuru

Subjects
ANALYTIC network process, ONLINE databases, SOCIAL processes, SOCIAL control, VIRTUAL communities, SYSTEM dynamics
Abstract

The social risk of a community renewal project is a macro concept, which is composed of many micro social risk factors. Community renewal projects involve a large number of stakeholder subjects, and the relationship between the subjects is intricate and complex, which leads to a more diversified source of social risk factors behind community renewal projects. There are interactions and interdependence among many factors, and complex interactions form a coupled relationship between the factors. In this paper, an original corpus is constructed based on online and offline data, and 19 risk factors of community renewal projects and the coupling effects of the factors are identified through the grounded theory. The factor weights are solved through the analytic network process (ANP). The dynamic evolution model of social risks is constructed through the system dynamics model based on the factors, the coupling effects of the factors, and the factor weights, so as to simulate the dynamic evolution process of the social risks. The results show that factors such as the management mechanism soundness have larger weights, and in the process of social risks evolution, core factors such as unsound management mechanism will trigger a series of other risk factors, which will increase the overall social risks. This paper identifies the key factors of social risks, clarifies the complex coupling relationship between the factors, provides a dynamic evolution model, reveals the dynamic evolution process of social risks, and provides theoretical basis and countermeasure suggestions for efficiently identifying and controlling the social risks of community renewal projects. Practical Applications: Community renewal projects involve numerous stakeholders, including the government, enterprises, and residents. These stakeholders interact frequently, creating complex relationships that significantly impact the project. The diverse factors from these stakeholders can lead to significant social risks in community renewal projects, with these factors influencing and interacting with each other. This paper constructs a dynamic evolution model of social risks, which can reveal how social risk factors from diverse entities evolve dynamically. It uncovers the micro-level components behind the macro concept of social risks, helping managers and practitioners clarify the constituent factors of social risks and their dynamic interrelationships. By predicting social risks and their evolution in community renewal projects, this model provides a theoretical basis and feasible suggestions for efficiently identifying, evaluating, analyzing, and controlling social risks. Ultimately, it contributes to enhancing the efficiency and sustainability of community renewal projects. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Practice and Thought of Mechanical Drawing Integrated Curriculum Development

Author

Li, Qian, Xue, Junxia, Hou, Jinjie, Li, Hui, Li, Ruiyu, 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, Xu, Zheng, editor, Parizi, Reza M., editor, Hammoudeh, Mohammad, editor, and Loyola-González, Octavio, editor

Published
2020
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