Lin Yu Rou |  Machine Learning | Best Researcher Award

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Ms. Lin Yu Rou |  Machine Learning | Best Researcher Award

Software Development Engineer, China Trust Commercial Bank, Taiwan

Yuruo Lin is a passionate researcher and aspiring data scientist with a strong foundation in information and finance management. With hands-on experience in data analytics, machine learning, and healthcare informatics, she actively engages in interdisciplinary research projects, focusing on practical applications that merge technology and social impact. Her academic journey is marked by leadership, innovation, and a commitment to empowering communities through data-driven solutions.

🔹Professional Profile:

Orcid Profile

🎓Education Background

  1. Master’s in Information and Finance Management
    National Taipei University of Technology, Taiwan
    Sep 2022 – Jun 2024

    • Honorable Mention in 2023 Capstone Project Competition

    • Participant in “STEM & Female Research Talent Cultivation Program (2022)”

  2. Bachelor’s in Information Management
    National Taipei University of Nursing and Health Sciences, Taiwan
    Sep 2018 – Jun 2022

    • 2nd Place, 2021 National Collegiate Information Application Innovation Competition

    • Published research on the impact of COVID-19 on hospital quality

    • President, IT Volunteer Club; led USR project and received Outstanding Club and Officer Scholarship

💼 Professional Development

Yuruo has collaborated on diverse academic and practical research projects, combining statistical methods with machine learning and data visualization to address real-world problems. She developed predictive models for ESG performance using ensemble learning, analyzed hospital service quality amid the COVID-19 pandemic, and experimented with algorithmic trading strategies. Her work spans financial analytics, public health equity, and VR-based elderly care solutions.

🔬Research Focus

  • Data Science and Machine Learning

  • Financial and Investment Analytics

  • Healthcare Informatics and Public Health Data

  • Human-Computer Interaction (HCI)

  • Media Analytics for ESG Performance

  • Social Impact Technology (VR, USR Projects)

📈Author Metrics:

Yuruo Lin is the first author of a peer-reviewed research article titled “How can media attention reveal ESG improvement opportunities? A multi-algorithm ML-based approach for Taiwan’s electronics industry,” published in the Elsevier journal Expert Systems with Applications in 2025. This journal is indexed in SCI and Scopus, with a strong impact factor in the fields of artificial intelligence and applied computing. Her publication explores media-driven ESG analytics using ensemble machine learning and clustering techniques, demonstrating both technical depth and relevance to sustainability research. The work has garnered academic attention and serves as a foundation for her growing research profile in data science and ESG modeling.

🏆Awards and Honors:

  • Honorable Mention – 2023 Capstone Project Competition, NTUT

  • 2nd Place – 2021 National Collegiate Information Application Innovation Competition (VR Therapy)

  • Outstanding Club Leadership – IT Volunteer Club, USR Project, Ministry of Education

  • Multiple Awards – National Innovation Proposal Competitions (2020–2021)

  • Scholarship – Officer Scholarship for Club Leadership

📝Publication Top Notes

1. How can media attention reveal ESG improvement opportunities? A multi-algorithm machine learning-based approach for Taiwan’s electronics industry

Journal: The North American Journal of Economics and Finance
Publisher: Elsevier
Publication Date: May 2025
DOI: 10.1016/j.najef.2025.102431
ISSN: 1062-9408
Contributors: Shu Ling Lin, Yu Rou Lin, Xiao Jin
Indexing: Scopus, SSCI
Abstract Summary:
This study applies ensemble machine learning algorithms—including Naive Bayes, Support Vector Machines, Random Forest, and Neural Networks—combined with clustering and semi-supervised learning to investigate how media attention can serve as a predictive signal for ESG performance changes in Taiwan’s electronics industry. The findings highlight the potential of media-driven analytics in enhancing ESG investment strategies and corporate monitoring.

2. Exploring the Relationship between Corporate ESG Ratings and Media Attention through Machine Learning: Predictive Model for the Taiwanese Electronics Industry

Author: Yu Rou Lin
Institution: National Taipei University of Technology
Degree: Master’s in Information and Finance Management
Status: Completed (June 2024)
Contribution: Original draft, research design, and full implementation of machine learning pipeline
Focus: The thesis investigates the correlation between ESG ratings and media sentiment, using real market data and various machine learning models, and serves as the foundational research for the later published journal article.

Conclusion:

In summary, Ms. Yu Rou Lin is an outstanding candidate for the Best Researcher Award in Machine Learning. Her work exemplifies the fusion of technical rigor and societal relevance, with achievements that reflect intellectual curiosity, practical application, and academic leadership.

Her potential for future growth is immense, especially as she continues to refine her research contributions and engage with global scientific communities.

Chao Yuan | Machine Learning | Best Researcher Award

Posted on by Network Science

Dr. Chao Yuan | Machine Learning | Best Researcher Award

Associate Professor at Guangzhou University, China

Dr. Chao Yuan is a postdoctoral researcher at the School of Mathematics and Information Science, Guangzhou University, and a visiting scholar at Durham University, UK. He earned his Ph.D. in Computer Science and Technology from China Agricultural University in 2022. His research focuses on machine learning, particularly robust metric learning and nonlinear classification methods. Dr. Yuan has authored over fifteen high-impact journal articles in top-tier journals such as Knowledge-Based Systems, Neural Networks, and Information Sciences. His contributions span both theoretical advancements and practical implementations in areas like image denoising, signal reconstruction, and pattern classification. Known for his strong analytical mindset, innovative thinking, and team collaboration, Dr. Yuan is recognized for delivering results in complex research environments. With a clear vision for interdisciplinary exploration, he aims to bridge cutting-edge learning models with real-world intelligent systems. His career reflects dedication to academic excellence, continuous learning, and impactful scientific discovery.

Professional Profile:

Scopus

Education Background

Dr. Yuan earned his B.Sc. in Information and Computing Science from Weinan Normal University (2014), his M.Sc. in Computational Mathematics from Xi’an Polytechnic University (2018), and his Ph.D. in Computer Science and Technology from China Agricultural University (2022). His academic training bridges mathematics, computing, and artificial intelligence. During his Ph.D., he specialized in machine learning algorithms, robust metric learning, and classification techniques. His education laid a strong theoretical and computational foundation, equipping him with skills in optimization, signal analysis, and modeling. He has actively participated in research during all academic phases, contributing to publications and national projects. His academic journey reflects continuous growth from applied mathematics to cutting-edge intelligent computing.

Professional Development

Dr. Yuan is currently a postdoctoral researcher at Guangzhou University and a visiting scholar at Durham University (2023–2024) under the Guangdong Young Talents Program. He previously participated in multiple national projects during his doctoral research, focusing on sparse coding, manifold learning, and image set classification. He has experience in algorithm development, scientific publishing, and interdisciplinary collaboration. His professional work spans robust AI models, lightweight architectures for IoT, and biologically inspired computation. At Durham, he is currently researching swarm intelligence and robotic systems. Dr. Yuan brings practical innovation and academic rigor to his work, with a commitment to applied research and impactful discoveries.

Research Focus

Dr. Yuan’s research interests include machine learning, robust classification, nonlinear metric learning, sparse representation, image denoising, and manifold learning. He focuses on correntropy-based techniques and adaptive learning methods for noise-tolerant AI. His work also explores Riemannian manifold approaches, lightweight deep networks, and swarm intelligence for autonomous systems. He is passionate about developing efficient and interpretable models for real-world tasks, especially in constrained environments like IoT. Dr. Yuan is currently researching intelligent swarm systems, combining bio-inspired algorithms with AI. His long-term goal is to bridge theory and application, creating robust, scalable, and generalizable intelligent systems.

Author Metrics:

Dr. Chao Yuan has established himself as a prolific researcher in the field of robust machine learning and nonlinear metric learning. He has authored over 17 high-impact research papers in prestigious international journals such as Knowledge-Based Systems, Information Sciences, Neural Networks, and Neurocomputing, many of which are published in top-tier (Q1, CAS Zone 1) journals with impact factors ranging from 5.3 to 8.8. He has contributed as a first author or co-first author in multiple publications. His work has garnered significant academic attention and citations, reflecting his influence in the field. He actively collaborates with renowned scholars and is also listed as a co-inventor on a Chinese invention patent. His research contributions demonstrate both depth and consistency in advancing the theoretical and practical dimensions of machine learning.

Awards and Honors:

Dr. Chao Yuan has received several prestigious accolades recognizing his research excellence and academic impact. He is the principal investigator of the National Natural Science Foundation of China (NSFC) Youth Project, which focuses on Riemannian manifold learning for image set classification. He was also selected for the Guangdong Province Outstanding Young Scientific Research Talent International Training Program, which supported his year-long academic visit to Durham University, UK. This visit enabled interdisciplinary collaboration in biologically inspired swarm intelligence and robotics. Additionally, Dr. Yuan has participated in multiple nationally funded key projects related to sparse signal reconstruction, low-power Internet of Things systems, and intelligent spectral analysis. His achievements highlight his innovation, academic leadership, and international research visibility, contributing significantly to China’s frontier research in artificial intelligence and applied mathematics.

Publication Top Notes

1.  Mixture correntropy-based robust distance metric learning for classification

~ Authors: Chao Yuan, Changsheng Zhou, Jigen Peng, Haiyang Li
~ Journal: Knowledge-Based Systems, 2024, Volume 295, Article 111791, Pages 1–20
~Impact Factor: 8.8 (CAS Zone 1)

Summary:
This paper proposes a novel distance metric learning algorithm using mixture correntropy to handle non-Gaussian noise and outliers in classification tasks. It demonstrates improved robustness and accuracy compared to existing methods, especially in noisy and real-world datasets.

2. Correntropy-based metric for robust twin support vector machine

~ Authors: Chao Yuan, Liming Yang, Ping Sun
~Journal: Information Sciences, 2021, Volume 545(1), Pages 82–101
~ Impact Factor: 8.1 (CAS Zone 1)

Summary:
This work integrates correntropy into Twin Support Vector Machines (TWSVM), resulting in a classifier that is more resistant to noise and outliers. The model exhibits better generalization and classification performance on challenging datasets.

3. Robust twin extreme learning machines with correntropy-based metric

~ Authors: Chao Yuan, Liming Yang
~ Journal: Knowledge-Based Systems, 2021, Volume 214, Article 106707, Pages 1–15
~Impact Factor: 8.8 (CAS Zone 1)

Summary:
The authors enhance Twin Extreme Learning Machines (TELM) by incorporating a correntropy-based loss function, making them more robust for classification tasks in the presence of noisy labels and outliers.

4. Capped L2,p-norm metric based robust least squares twin support vector machine for pattern classification

~  Authors: Chao Yuan, Liming Yang
~ Journal: Neural Networks, 2021, Volume 142, Pages 457–478
~ Impact Factor: 7.8 (CAS Zone 1)

Summary:
This paper introduces a capped L2,p-norm-based metric into the Least Squares Twin SVM framework, enhancing robustness by mitigating the influence of noisy and redundant samples. It shows superior classification accuracy across benchmark datasets.

5. Large margin projection-based multi-metric learning for classification

~  Authors: Chao Yuan, Liming Yang
~  Journal: Knowledge-Based Systems, 2022, Volume 243, Article 108481, Pages 1–15

Summary:  This research presents a multi-metric learning approach based on large-margin projections that dynamically adjusts distance metrics for different data subspaces. The method significantly enhances classification accuracy and adaptability to diverse data distributions.

Conclusion

Dr. Chao Yuan embodies the essence of a next-generation AI researcher: technically proficient, globally connected, and impact-oriented. His innovative contributions to robust machine learning, adaptive classification models, and interpretable AI systems place him among the top-tier young researchers globally.

Verdict:

Highly recommended for the Best Researcher Award in Machine Learning, recognizing both his scientific excellence and future research potential.