Yasaman | Data Science and Deep Learning | Editorial Board Member

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Dr. Yasaman | Data Science and Deep Learning | Editorial Board Member

Research Scholarat at Lille Univesity | France

Dr. Yasaman is a computer engineer and independent researcher from Tehran, Iran, whose academic journey spans a B.Sc. in puzzle-game mechatronic design and microcontroller-based control systems, an M.Sc. in multi-core chip testability with on-chip 3D-memory banks, and a Ph.D. focused on deep learning accelerator architectures built on networks-on-chip communication infrastructures; throughout her career she has distinguished herself through top national academic rankings, excellence awards in robotics competitions, and recognition for her highly cited research in medical-AI literature, complemented by the publication of a specialized book chapter on deep learning accelerators; her multidisciplinary expertise extends across robotics, integrated digital circuits, FPGA testability, NoC-based architectures, IoT, machine learning, AI algorithms, and advanced medical applications; her current research concentrates on machine learning and deep learning algorithms for hardware-aware intelligence, voice detection, audio recognition, and sound-based assistive systems to support individuals with neurological disorders such as stroke and dementia, while also exploring neural pattern interpretation for resilient AI-driven architectures; she has contributed as a reviewer for leading scientific journals, served as a guest editor and technical program committee member across notable international conferences, and delivered advanced teaching in digital design, VHDL, and engineering courses at major universities; her professional experience includes managing automation and environmental control systems in industrial composting facilities, engineering roles in EMS and OEM companies, and long-term research appointments at the Islamic Azad University Science and Research Branch; equipped with multilingual proficiency in French, Persian, English, and Arabic, and technical skills spanning VHDL, C-family languages, Python, Java, Matlab, SystemC tools, simulation environments, network simulators, CAD tools, and scientific typographic platforms, she continues to contribute impactful interdisciplinary research shaping advanced intelligent systems for both hardware and healthcare domains.

Profile: Google Scholar

Featured Publications:

Rahmani, A. M., & Hosseini Mirmahaleh, S. Y. (2021). Coronavirus disease (COVID-19) prevention and treatment methods and effective parameters: A systematic literature review. Sustainable Cities and Society, 64, 102568.

Hosseini Mirmahaleh, S. Y., Reshadi, M., Shabani, H., Guo, X., & Bagherzadeh, N. (2019). Flow mapping and data distribution on mesh-based deep learning accelerator. In Proceedings of the 13th IEEE/ACM International Symposium on Networks-on-Chip (NoC).

Hosseini Mirmahaleh, S. Y., & Rahmani, A. M. (2019). DNN pruning and mapping on NoC-based communication infrastructure. Microelectronics Journal, 94, 104655.

Hosseini Mirmahaleh, S. Y., Reshadi, M., & Bagherzadeh, N. (2020). Flow mapping on mesh-based deep learning accelerator. Journal of Parallel and Distributed Computing, 144, 80–97.

Rahmani, A. M., & Hosseini Mirmahaleh, S. Y. (2022). Flexible-clustering based on application priority to improve IoMT efficiency and dependability. Sustainability, 14(17), 10666.

Ali Alyatimi | Deep Learning | Best Research Article Award

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Mr. Ali Alyatimi | Deep Learning | Best Research Article Award

Associate Professor | The University of Sydney | Australia

Mr. Ali Alyatimiis a dedicated researcher and academic professional currently pursuing a PhD in Computer Science at the University of Sydney, specializing in deep learning and multi-omics data integration. With a solid interdisciplinary background in computer science, engineering technology, and artificial intelligence, Mr. Ali Alyatimi brings extensive experience in both research and teaching across data science, machine learning, and computer vision domains. His academic foundation includes advanced study in computational methods, database systems, and data-driven modeling, supported by expertise in programming languages such as Python, R, SQL, and MATLAB. His research focuses on developing multi-view deep learning frameworks that enhance biological data fusion and computational biology analysis, supervised by Dr. Vera Chung and Dr. Ali Anaissi. Before commencing doctoral research, he served as a lecturer and trainer in the Department of Computer Science at the College of Technology, Jizan, where he taught programming, database design, and computer network courses, guiding students in developing innovative, database-driven web applications using PHP and MySQL. His earlier research at the University of New England involved the design and implementation of illumination invariance techniques to improve weed detection in pastures using object detection models with YOLOv4 and TensorFlow, demonstrating the practical potential of deep learning in precision agriculture. Alongside research, he actively contributes to academic development through tutoring undergraduate courses in data science and computational methods at the University of Sydney. His current work integrates artificial intelligence, bioinformatics, and data fusion, aiming to advance computational modeling in healthcare and life sciences.

Profile: Google Scholar

Featured Publications:

Zinah Saeed | Deep Learning | Best Researcher Award

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Ms. Zinah Saeed | Deep Learning | Best Researcher Award

Universiti Sains Malaysia | Iraq

Saeed ZR is a dedicated researcher and academic with a strong background in computer science, networking technology, and innovative applications of artificial intelligence, currently pursuing his doctoral studies in computer science at the School of Computer Sciences, Universiti Sains Malaysia, after completing a master’s degree in networking technology at Universiti Teknikal Malaysia Melaka and a bachelor’s degree in computer science at Mustansiriyah University in Baghdad, building his academic journey on a foundation of technical expertise and analytical thinking, his research interests cover metaheuristic algorithms, artificial intelligence, deep learning, gesture recognition, assistive technologies, human–computer interaction, and networking security, he has contributed to the academic community with impactful publications including a hybrid improved IRSO–CNN algorithm for accurate recognition of dynamic gestures in Malaysian sign language, a systematic review on systems-based sensory gloves for sign language pattern recognition, and research on improving cloud storage security using three layers of cryptography algorithms, his professional journey includes significant teaching experience as a lecturer at the Iraqi Police Academy where he worked to advance education and training, and his ongoing research and doctoral studies have strengthened his ability to design, implement, and test intelligent systems addressing real-world challenges, his technical skills encompass proficiency in computer software, Microsoft Office applications, and operating systems across Windows and Mac environments, alongside practical programming expertise in Python for scripting and data processing, he is also experienced with widely used research and software tools such as Jupyter, Colab, Git, SPSS, and basic MATLAB, beyond his professional life he nurtures a passion for reading, research, and continuous learning, qualities that support his growth as a thoughtful academic and innovative researcher, his multidisciplinary focus, combined with a strong commitment to impactful scientific contributions, reflects a future-oriented career in advancing artificial intelligence and human-centered technologies.

Profile: Google Scholar

Featured Publications:

Saeed, Z. R., Ibrahim, N. F., Zainol, Z. B., & Mohammed, K. K. (2025). A hybrid improved IRSO–CNN algorithm for accurate recognition of dynamic gestures in Malaysian sign language. Journal of Electrical and Computer Engineering, 2025(1), 6430675.

Saeed, Z. R., Zainol, Z. B., Zaidan, B. B., & Alamoodi, A. H. (2022). A systematic review on systems-based sensory gloves for sign language pattern recognition: An update from 2017 to 2022. IEEE Access, 10, 123358–123377.

Saeed, Z. R., Zakiah Ayop, N. A., & Baharon, M. R. (2018). Improved cloud storage security using three layers cryptography algorithms. International Journal of Computer Science and Information Security, 16(10), 11–18.

 

Sheeba Rachel S | Machine Learning | Best Researcher Award

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Mrs. Sheeba Rachel S | Machine Learning| Best Researcher Award

Assistant Professor | Sri Sai Ram Engineering College | India

  S. Sheeba Rachel has contributed extensively to the fields of artificial intelligence, machine learning, deep learning, healthcare technologies, smart devices, image processing, cloud computing, and Internet of Things with publications including Cardiovascular Disease Prediction Using Machine Learning and Deep Learning, Heart Disease Prediction of an Individual Using SVM Algorithm, Automated Driving License Testing System, Real-Time Face Detection and Identification Using Machine Learning Algorithm for Improving the Security in Public Places Using Closed Circuit Television, LEARNAUT – Upgraded Learning Environment and Web Application for Autism Environment Using AR-VR, VATTEN – A Smart Water Monitoring System, Segmentation and Classification of Glaucoma Using U-Net with Deep Learning Model, EDSYS – A Smart Campus Management System, TRACKME – Smart Watch for Women, Women’s Safety with a Smart Foot Device, Mental Health Monitoring Using Sentimental Analysis, Facilitation of Multipurpose Gloves for Impaired People, Extending OVS with Deep Packet Inspection Functionalities, Courier Service Management and Tracking Using Android Application, Detecting the Abandoned Borewell Using Image Processing, Smart Hospitals E-Medico Management System, ADROIT LIMB – Brain Controlled Artificial Limb, Autonomous Movable Packrat for Habitual Chores, Postal Bag Tracking and Alerting System, Applying Social Network Aided Efficient Live Streaming System for Reducing Server Overhead, Image Fusion of MRI Images Using Discrete Wavelet Transform, Probabilistic Flooding Based File Search in Peer to Peer Network, Multi Stage for Informative Gene Selection, Mutual Information in Stages for Informative Gene Selection, Computation of Mutual Information in Stages for Gene Selection from Microarray Data, and several other impactful studies in international journals and conferences indexed in Scopus, IEEE, and UGC; she has further contributed to innovation through consultancy projects such as AI-based pre-examination dental software and non-invasive sugar detection using eye retina, authored books and chapters including Fundamentals of Machine Learning, Management Analytics and Software Engineering, Recent Trends in Engineering and Technology – Edge Computing, and secured patents like Artificial Intelligence Based Heart Rate Monitoring Device for Sports Training, IOT Based Washing Machine for Agricultural Crops, Human Identity Recognition System Using Cloud Machine Learning and Deep Learning Algorithms, Gesture Based Anti-Rape Device, while also holding active memberships with IEEE, ISTE, IEI, UACEE, IAENG, and IACSIT; her academic journey has been marked by mentorship of award-winning projects, reviewer and session chair responsibilities in international conferences, and recognition such as the Best Faculty Advisor Award demonstrating her influence in advancing technology-driven solutions for healthcare, safety, smart systems, and education through research, teaching, patents, and community engagement.

Profile:  Google Scholar

Featured Publications:

Jihong Wang | Data Science and Deep Learning | Best Academic Researcher Award

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Ms. Jihong Wang | Data Science and Deep Learning | Best Academic Researcher Award 

Ms. Jihong Wang, at The University of Hong Kong, China.

Jihong Wang is a robotics and autonomous systems engineer pursuing an MSE in Innovative Design and Technology at The University of Hong Kong (expected July 2025). With a robust foundation from a B. Eng in Robot Engineering at Beijing University of Technology (2020–2024; CGPA 3.49/4.0), Jihong combines theoretical excellence with real-world innovation. Their passion lies in intelligent transportation, UAV/robotic control systems, and federated learning. Through multiple competitive academic projects—ranging from autonomous intersection navigation to solar-tracking innovations—they demonstrate skill in MATLAB, STM32, and AI algorithms. Recipient of Huawei Future Star Scholarship (2023), national contest wins, and multiple patents, Jihong brings creativity, technical depth, and academic rigor. Their goal: to develop cutting-edge, robust control strategies that improve safety and efficiency in next-gen autonomous systems.

Professional Profile

Google Scholar

🎓 Education

Jihong’s academic journey began at Beijing University of Technology (Sep 2020–Jul 2024), where they earned a B. Eng in Robot Engineering with a CGPA of 3.49/4.0; a stellar junior-year CGPA of 3.85/4.0 reflected exceptional performance across modules. Key coursework included Data Structures & Algorithms (95), Modern Control Theory (89), Machine Vision (89), Multi‑Robot Modeling (96), Electric Machines & Motion Control (93), and High‑Level Programming (92), laying a strong theoretical and applied foundation. Building on this, Jihong began MSE studies in Innovative Design & Technology at The University of Hong Kong in September 2024, with expected graduation in July 2025. Here, advanced design methodologies, emerging technology applications, and multidisciplinary collaboration foster deeper expertise in autonomous system design and research innovation.

💼 Experience

Jihong’s practical experience encompasses academic, research, and professional roles. In academia, they’ve led projects such as autonomous intersection control, solar‑tracking STM32 systems, and robot‑car Bluetooth control, applying embedded systems and AI. Their professional engagements include roles at China Aerospace Standardization Institute (intern, Jun–Jul 2023), where they earned high marks (94/100) in standards integration and technical documentation; Bamba Technology Co. (editorial intern, Jul–Sep 2022), overseeing content revision and meeting summaries; and Orang International Translation Center (translation assistant, Sep–Oct 2020), converting multimedia content into accurate manuscripts. Each role showcases attention to technical detail, communication, and cross-functional teamwork. In graduate research ongoing since mid‑2024, Jihong is designing fault‑tolerant control systems for tiltrotor UAVs and federated‑learning algorithms. Their combined work experience supports their ambition to merge robotics, machine learning, and control theory into real‑world systems.

🔬 Research Interest

Jihong’s research focuses on advanced control, robotics, and distributed AI systems. Key interests include:

  • Model Predictive Control (MPC): Designing algorithms for UAVs and autonomous vehicles that account for disturbances and system uncertainties.

  • Fault‑tolerant control: Developing robust frameworks for tiltrotor UAVs experiencing partial power loss or mechanical failures.

  • Federated learning & fuzzy clustering: Creating privacy‑aware, distributed unsupervised learning models (e.g., ECM algorithm) for decentralized sensor networks.

  • Collaborative autonomy: Integrating real‑time traffic signal data with autonomous vehicle control to optimize safety and efficiency at intersections.

  • Embedded and aerial robotics: Deploying STM32‑based systems for solar tracking and robot arms and exploring innovations in aerial‑target detection and SLAM in dynamic environments.

Jihong combines control theory, machine vision, federated AI, and embedded systems to push the boundaries of intelligent, resilient, and cooperative robotic systems.

🏅 Awards

Jihong’s achievements include:

  • Winner, National Academic English Vocabulary Contest for College Students (2023)

  • Huawei Future Star Scholarship (2023)

  • Four utility‑model patents & two software copyrights (2022–2023)

  • School‑level Innovation & Entrepreneurship Awards (2022, 2023)

  • First Prize, School‑level Writing Contest Preliminaries (2022)

  • “S Award,” American University Mathematical Modeling Competition (2021)

  • Third Prize, School‑level Poetry Conference (2021)

  • Third Prize, University‑level Knowledge Contest (2020)

These honors reflect Jihong’s academic strength, innovativeness, and interdisciplinary excellence in technical writing, modeling, and creativity.

📄Top Noted Publications

Here are Jihong’s key publications (each listed with hyperlink, year, journal, and one-line citation count if available):

1. “Research on Autonomous Vehicle Control based on Model Predictive Control Algorithm”

  • Conference: IEEE ICDSCA 2024

  • Publisher: IEEE

  • Citations: 5

2. Feng et al., “Research on Move‑to‑Escape Enhanced Dung Beetle Optimization and Its Applications”

  • Journal: Biomimetics, 2024

  • Citations: 8

3. Wei et al., “AFO‑SLAM: an improved visual SLAM in dynamic scenes…”

  • Journal: Measurement Science and Technology, 2024

  • Citations: 6

4. Jia & Wang, “A Control Strategy and Simulation for Precision Control of Robot Arms”

  • Conference: ICIR 2024

  • Publisher: ACM

  • Citations: 3

5. Wang & Jia, “Research on UAV Trajectory Tracking Control Based on Model Predictive Control”

  • Conference: IEEE ICETCI 2024

  • Publisher: IEEE

  • Citations: 4

6. Xiong et al., “A Sinh Cosh Enhanced DBO Algorithm Applied to Global Optimization Problems”

  • Journal: Biomimetics, 2024

  • Citations: 7

7. Wang et al., “Research on the External Structure and Control System Design of Biomimetic Robots”

  • Conference: ICISCAE 2023

  • Publisher: IEEE

  • Citations: 2

📝 Under Review

8. “FAS‑YOLO: Enhanced Aerial Target Detection…”

  • Journal: Remote Sensing

  • Status: Under Review

9. Xu et al., “MASNet: Mixed Artificial Sample Network for Pointer Instrument Detection”

  • Journal: IEEE Transactions on Instrumentation and Measurement

  • Status: Under Review

Conclusion

Jihong Wang is a highly promising candidate for the Best Academic Researcher Award, especially in the student or early-career researcher category. The profile reflects a mature understanding of advanced robotics, intelligent systems, and real-world engineering problems, backed by publications, practical projects, and international experiences.

Xiang Zhang | Data Science and Deep Learning | Best Researcher Award

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Xiang Zhang | Data Science and Deep Learning | Best Researcher Award

Mr. Xiang Zhang, Hainan university, China

Xiang Zhang is a dedicated researcher specializing in resource utilization, plant protection, and ecological remote sensing. He holds a Master’s degree in Resource Utilization and Plant Protection and a Bachelor’s degree in Ecology from Hainan University. His expertise includes terrestrial ecosystem simulation, vegetation monitoring, and global change ecology. Xiang has contributed to mangrove carbon storage estimation, ecological restoration, and satellite image processing. He has worked with Hainan Silan Low Carbon Investment Co., Ltd. and Changguang Satellite Technology Co., Ltd.. A recipient of multiple scholarships, he actively researches carbon sequestration strategies for sustainable ecosystems.

Profile

orcid

Education 🎓

Xiang Zhang pursued his Master’s degree at the Ecological College, specializing in Resource Utilization and Plant Protection 🌱. With an impressive GPA and ranking within the top 5% 📊, he excelled in courses such as Agricultural Product Safety Production, Advanced Experimental Design & Biostatistics, and Ecological Restoration Technologies. His Bachelor’s degree in Ecology 🌿 further strengthened his expertise, where he ranked in the top 20% and gained knowledge in Forestry, Microbiology, GIS, and Ecological Economics. His academic journey reflects a strong foundation in environmental protection, sustainable agriculture, and ecological governance 🌍.

Experience 🧪

Xiang Zhang has actively contributed to mangrove conservation 🌿 through extensive field investigations in key areas of Hainan, including Dongfang, Sanya, Danzhou, Haikou, and Wanning. He conducted soil and plant sampling 🧪, measuring element content, dry weight, and length. Utilizing satellite remote sensing 🛰️, he analyzed data and estimated the carbon ecological value of mangroves in Xinying Port. His expertise includes real-time image collection, manual vegetation recognition, and data mapping using ArcGIS and ENVI. He also worked on cloud removal techniques ☁️ and point interpolation to enhance coastal habitat studies 🌍.

Research Focus 🔍

Xiang Zhang’s research primarily focuses on forest ecology 🌳, soil organic carbon dynamics 🌱, and the impacts of environmental disturbances on ecosystems 🌪️. His studies analyze spatial distribution changes of topsoil organic carbon across different forest types in Hainan Island, exploring key factors influencing carbon storage. Additionally, he investigates gross primary production (GPP) losses and recovery in subtropical mangrove forests affected by tropical cyclones, highlighting the resilience of these ecosystems. His work contributes to climate change adaptation 🌍, carbon sequestration strategies 📉, and forest conservation efforts 🌾, offering valuable insights for sustainable environmental management.

Publications📚

Spatial Distribution Changes and Factor Analysis of Topsoil Organic Carbon Across Different Forest Types on Hainan Island

Evaluating the Losses and Recovery of GPP in the Subtropical Mangrove Forest Directly Attacked by Tropical Cyclone: Case Study in Hainan Island