Zhixiang Wang | Data Science and Deep Learning | Best Researcher Award

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Dr. Zhixiang Wang | Data Science and Deep Learning | Best Researcher Award

Research Intern at Beijing Friendship Hospital | China

Dr. Zhixiang Wang is a distinguished researcher in Clinical Data Science with a strong background in Artificial Intelligence, Medical Imaging, and Machine Learning. A PhD graduate from Maastricht University under the mentorship of Professor Andre Dekker, Wang has demonstrated a consistent commitment to bridging computational innovation with clinical application. His prolific research output spans over 29 internationally recognized journal publications, reflecting expertise in multimodal imaging, large language models, and radiomics. His representative works include Performance of GPT-4 for Automated Prostate Biopsy Decision-Making Based on mpMRI: A Multi-Center Evidence Study, Radiomics and Dosiomics Signature from Whole Lung Predicts Radiation Pneumonitis: A Model Development Study with Prospective External Validation and Decision-Curve Analysis, and Computed Tomography and Radiation Dose Images-Based Deep-Learning Model for Predicting Radiation Pneumonitis in Lung Cancer Patients After Radiation Therapy. He further contributed to Development and Performance of a Large Language Model for the Quality Evaluation of Multi-Language Medical Imaging Guidelines and Consensus, A Radiomics Nomogram for the Ultrasound-Based Evaluation of Central Cervical Lymph Node Metastasis in Papillary Thyroid Carcinoma, An Applicable Machine Learning Model Based on Preoperative Examinations Predicts Histology, Stage, and Grade for Endometrial Cancer, and Generation of Synthetic Ground Glass Nodules Using Generative Adversarial Networks (GANs). His studies such as CycleGAN Clinical Image Augmentation Based on Mask Self-Attention Mechanism and GAN-Based One-Dimensional Medical Data Augmentation highlight his skill in generative models for data enhancement. Zhixiang Wang’s research also explores Enhancing Diagnostic Accuracy and Efficiency with GPT-4-Generated Structured Reports and Assessing the Role of GPT-4 in Thyroid Ultrasound Diagnosis and Treatment Recommendations: Enhancing Interpretability with a Chain of Thought Approach. With extensive experience in AI-driven diagnostic imaging, multimodal model development, and LLM fine-tuning for clinical reporting, Wang continues to lead innovation at the intersection of data science and precision medicine, contributing impactful advancements toward intelligent, interpretable, and efficient clinical decision-support systems.

Profile: Scopus

Featured Publications:

Wang, Z., Zhang, Z., Luo, T., Yan, M., & Dekker, A. (2026). A cross-modal fine-grained retrieval method based on LAGC and contrastive learning. Expert Systems with Applications.

Wang, Z., Sun, J., Liu, H., & Chen, Y. (2026). Experience-guided multi-agent interpretable framework for radiology report summarization. Computer Methods and Programs in Biomedicine.

Wang, Z., Li, J., Feng, Y., & Qian, L. (2025). Machine learning model based on preoperative MRI and clinical data for predicting pancreatic fistula after pancreaticoduodenectomy. BMC Medical Imaging.

Shi, M. J., Wang, Z. X., & Wang, Z. C. (2025). Performance of GPT-4 for automated prostate biopsy decision-making based on mpMRI: A multi-center evidence study. Military Medical Research.

Kartik Charania | Data Science and Deep Learning | Best Researcher Award

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Mr. Kartik Charania | Data Science and Deep Learning | Best Researcher Award

Senior Research Fellow at Sardar Vallabhbhai National Institute of Technology Surat | India

Kartik Charania is a dedicated Water Resources Engineer and researcher whose work focuses on hydrological modeling, rainfall variability, and sustainable water distribution systems. Pursuing his Ph.D. in Water Resources Engineering at SVNIT, Surat, his doctoral research emphasizes the spatiotemporal analysis of rainfall variability to support efficient and equitable water distribution network design in semi-arid basins. His expertise integrates advanced statistical and innovative trend analysis techniques with GIS-based spatial mapping to assess temporal rainfall shifts and their hydrological implications. Through his research, he aims to enhance water management practices, optimize reservoir operations, and promote climate-resilient water supply systems. His academic journey includes a Master’s in Water Resources Engineering and a Bachelor’s in Civil Engineering from Gujarat Technological University, where he built a strong foundation in hydraulic and environmental systems. Proficient in tools such as EPANET, ArcGIS, Python, HEC-RAS, HEC-HMS, and Q-GIS, he combines computational and analytical approaches to develop data-driven solutions for sustainable water infrastructure. Kartik has contributed to leading journals like Environmental Science and Pollution Research and World Water Policy, presenting innovative methods for rainfall trend analysis in the Shetrunji Basin, India. His active participation in conferences on hydrology and climate variability highlights his commitment to advancing knowledge in the field. Additionally, he qualified for the GATE examination and participated in specialized training programs like the “Training of Trainer (ToT)” under the MARVI project, reflecting his dedication to groundwater visibility and community-based water management.

Profile: Scopus | Orcid | Google Scholar

Featured Publications:

Charania, K. M., & Patel, J. N. (n.d.). Spatiotemporal trends and variability of rainfall patterns using innovative polygon trend analysis method for Shetrunji Basin, India. Environmental Science and Pollution Research, 1–11.

Charania, K. M., & Patel, J. N. (n.d.). Comprehensive trend analysis of monthly and seasonal rainfall in the Shetrunji Basin, India using statistical and innovative techniques. World Water Policy.

Binbin Qin | Data Science and Deep Learning | Best Researcher Award

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Mr. Binbin Qin | Data Science and Deep Learning | Best Researcher Award

Instructor at Zhejiang Institute of Economics and Trade | China

Binbin Qin is a dedicated academic and researcher currently serving as a lecturer in the School of Business Intelligence at Zhejiang Institute of Economics and Trade, China. His work bridges the dynamic intersections of artificial intelligence, computer vision, and data mining, where he continually explores innovative methodologies that enhance intelligent decision-making and automated learning systems. With a strong focus on applying AI technologies to real-world problems, he contributes to developing intelligent solutions that improve safety, efficiency, and data-driven insights in various domains. His scholarly endeavors are characterized by a deep interest in how computational models can mimic human perception and decision-making through advanced neural network architectures and learning paradigms. Among his notable contributions, his publication titled “Distracted Driver Detection Based on a CNN With Decreasing Filter Size” in the IEEE Transactions on Intelligent Transportation Systems exemplifies his expertise in designing high-performance convolutional neural network frameworks capable of addressing critical safety challenges in intelligent transportation. Through his continuous research, he aims to merge the theoretical foundations of artificial intelligence with practical applications that influence intelligent mobility, human-computer interaction, and predictive analytics. reflects his growing contributions to the research community. As an emerging scholar in the field of computational intelligence, Binbin Qin remains committed to advancing interdisciplinary research that integrates algorithmic innovation with applied data science to drive the future of smart systems, autonomous learning environments, and intelligent business analytics.

Profile: Orcid

Featured Publications:

Qin, B. (2025). CRNet: A driver distraction detection model based on cascaded ResNet networks and attention mechanisms. IET Intelligent Transport Systems.

Qin, B., Qian, J., Xin, Y., Liu, B., & Dong, Y. (2022). Distracted driver detection based on a CNN with decreasing filter size. IEEE Transactions on Intelligent Transportation Systems.