Zhou Yu | Behavioral Neuroscience | Best Researcher Award

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Dr. Zhou Yu | Behavioral Neuroscience | Best Researcher Award

Dr. Yu Zhou is a postdoctoral researcher at Army Engineering University, specializing in the intersection of neuroscience, computer vision, and target detection. His research primarily focuses on deceptive visual design for both human and machine perception, exploring how visual stimuli can influence detection, recognition, and cognitive processing. Zhou has conducted pioneering studies on camouflage and optical deception, utilizing EEG-based brain functional network analysis to evaluate target visibility and cognitive responses. His work integrates principles from weapon science, biomedical engineering, and computer science to develop comprehensive models of visual perception and deception. Representative publications include investigations into neural responses to camouflage targets with varying exposure signs, the impact of color differences on brain activation patterns, and feasibility assessments of optical camouflage effects. Through these studies, he contributes to a deeper understanding of how visual designs can manipulate human attention and computer vision systems, providing actionable insights for defense technology applications. Zhou’s research emphasizes rigorous quantitative evaluation methods, leveraging neurophysiological data to inform the design of effective deceptive visual patterns. With an h-index of 2 and multiple citations, his work demonstrates a growing influence in fields spanning neuroscience-informed computer vision, perceptual deception, and applied optical camouflage.

Profiles: Scopus | Reasearch Gate

Featured publication

Author(s). (2024). Neural responses to camouflage targets with different exposure signs based on EEG. Neuropsychologia.

Congbo Cai | Neurotechnology | Best Researcher Award

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Prof. Dr. Congbo Cai | Neurotechnology | Best Researcher Award

Prof. Dr. Congbo Cai | Xiamen University | China

Professor Congbo Cai is a distinguished researcher at the School of Electronic Science and Technology, Xiamen University, specializing in advanced Magnetic Resonance Imaging (MRI) technology development. His research encompasses ultra-fast imaging, multi-parametric quantitative MRI, deep learning reconstruction, novel neuroimaging techniques, and quantitative medical image analysis. He has led and contributed to numerous high-impact projects, including national key R&D programs, NSFC key projects, and international cooperative projects, with funding totaling several million yuan. His innovations include pioneering high-entropy encoding and overlapping-echo designs, enabling rapid, high-fidelity MRI mapping, and integrating physics-informed deep learning for enhanced image reconstruction and clinical applications. Professor Cai has published over 80 papers in leading journals such as NeuroImage, IEEE Transactions on Medical Imaging, and Medical Image Analysis. He holds 12 patents and serves on editorial boards, including Health and Metabolism, and as a guest editor for Frontiers in Neuroscience. His professional contributions extend to active membership and leadership roles in major MRI societies. His work has garnered significant academic recognition, with a citation count exceeding 2,300 across 872 documents, an h-index of 25, and an i10-index of 55. Professor Cai’s research continues to advance MRI science, bridging cutting-edge technology and clinical translation.

Profiles: Scopus | Google Scholar | Research Gate | Linked In

Featured publications

  • Author(s). (2018). Accelerating multi-slice spatiotemporally encoded MRI with simultaneous echo refocusing. Journal of Magnetic Resonance.

  • Author(s). (2018). Single-shot T2 mapping using overlapping-echo detachment planar imaging and a deep convolutional neural network. Magnetic Resonance in Medicine.

  • Author(s). (2018). Referenceless distortion correction of gradient-echo echo-planar imaging under inhomogeneous magnetic fields based on a deep convolutional neural network. Computers in Biology and Medicine.

  • Author(s). (2018). Weighted total variation using split Bregman fast quantitative susceptibility mapping reconstruction method. Chinese Physics B.

  • Author(s). (2018). Simultaneous single- and multi-contrast super-resolution for brain MRI images based on a convolutional neural network. Computers in Biology and Medicine.

  • Author(s). (2018). Motion-tolerant diffusion mapping based on single-shot overlapping-echo detachment (OLED) planar imaging. Magnetic Resonance in Medicine.

Hiroshi Nagase | Neuropharmacology | Best Researcher Award

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Prof. Hiroshi Nagase | Neuropharmacology | Best Researcher Award

Prof. Hiroshi Nagase | University of Tsukuba | Japan

Prof. Hiroshi Nagase is a distinguished Japanese scientist recognized for his pioneering contributions to medicinal chemistry and drug discovery. He earned his B.S., M.S., and Ph.D. degrees in Chemistry from Nagoya University, Japan, and later served as a Visiting Scientist at the University of Minnesota’s Department of Medicinal Chemistry. Dr. Nagase began his professional career at Toray Industries Inc., where he advanced from Researcher to Director in the Basic Research Laboratories. He later joined Kitasato University’s School of Pharmacy as a Professor and subsequently served as a Principal Investigator and Professor at the International Institute for Integrative Sleep Medicine (IIIS) under the World Premier International Research Center Initiative at the University of Tsukuba, where he now holds the title of Professor Emeritus. His academic and research influence extended through adjunct professorships at the University of Tokyo, the University of Nagasaki, Toyohashi Polytechnic College, and Nagoya University. Dr. Nagase has authored 39 scientific documents, which have collectively garnered 279 citations from 189 sources, reflecting his substantial impact on the field. With an h-index of 10, his research continues to inspire advancements in medicinal chemistry, neuropharmacology, and therapeutic innovation.

Profiles: Scopus | Research Gate

Featured Publication

Nagase, H. (2025). Development of novel bioactive alkaloids based on specific reactions of the 4,5-epoxymorphinan framework. Synlett.

[Authors not listed]. (2025). Delta opioid receptor agonists activate PI3K–mTORC1 signaling in parvalbumin-positive interneurons in mouse infralimbic prefrontal cortex to exert acute antidepressant-like effects. Molecular Psychiatry.

Kailas Chavan | Neuropharmacology | Best Researcher Award

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Mr. Kailas Chavan | Neuropharmacology | Best Researcher Award

Mr. Kailas Chavan | Indian Institute of Technology Jodhpur | India

Kailas Arjun Chavan is a doctoral researcher at the Indian Institute of Technology Jodhpur, specializing in organic chemistry under the mentorship of Dr. Rohan D. Erande. His Ph.D. research focuses on the isolation and synthesis of bioactive scaffolds, including bis-indolyl compounds, flavonoids, and constituents of Pterocarpus marsupium, alongside the development of nickel-catalyzed direct conversion of alcohols to trans-cinnamonitriles. He completed his M.Sc. in Organic Chemistry at Dr. Babasaheb Ambedkar Marathwada University, where he investigated Cs₂CO₃-catalyzed reactions for the efficient synthesis of dihydroquinazolin-4(1H)-one. Kailas has contributed to the scientific community through 6 publications, amassing 94 citations. His research interests bridge synthetic methodology with bioactive compound exploration, aiming to advance medicinal chemistry and sustainable synthesis. Kailas’s work reflects a strong commitment to chemical innovation, positioning him as a promising emerging scientist in his field.

Profiles: Scopus | Google Scholar | Research Gate | Linked In

Featured Publications

Chavan, K. A., Shukla, M., Chauhan, A. N. S., Maji, S., Mali, G., Bhattacharyya, S., … (2022). Effective synthesis and biological evaluation of natural and designed bis(indolyl)methanes via taurine-catalyzed green approach. ACS Omega, 7(12), 10438–10446.

Mali, G., Maji, S., Chavan, K. A., Shukla, M., Kumar, M., Bhattacharyya, S., … (2022). Effective synthesis and biological evaluation of functionalized 2,3-dihydrofuro[3,2-c]coumarins via an imidazole-catalyzed green multicomponent approach. ACS Omega, 7(40), 36028–36036.

Shivam, S., Chavan, K. A., Chauhan, A. N. S., Erande, R. D. (2023). Recent advances in [3+2]-cycloaddition-enabled cascade reactions: Application to synthesize complex organic frameworks. Synlett, 34(07), 709–728.

Mali, G., Chauhan, A. N. S., Chavan, K. A., Erande, R. D. (2021). Development and applications of double Diels‐Alder reaction in organic synthesis. Asian Journal of Organic Chemistry, 10(11), 2848–2868.

Sharma, V., Chavan, K. A., Mali, G., Sarkar, D., Lama, P., Majumder, M., … (2023). A catecholaldimine-based NiII-complex as an effective catalyst for the direct conversion of alcohols to trans-cinnamonitriles and aldehydes. The Journal of Organic Chemistry, 88(11), 7448–7453.

Chavan, K. A., Sonawane, O. A., Erande, R. D. (2025). Novel metabolites from Pterocarpus marsupium: Structural characterization and biological relevance. Tetrahedron Letters, 155820.

Gulcin Gacar | Neurodegenerative Disease | Best Researcher Award

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Assoc. Prof. Dr. Gulcin Gacar | Neurodegenerative Disease | Best Researcher Award

Prof. Dr. Gulcin Gacar | Kocaeli University | Turkey

Associate Professor Dr. Gulcin Gacar of Kocaeli University is a distinguished researcher and educator in the fields of stem cell biology, regenerative medicine, and clinical microbiology. With over 200 scientific publications, including 54 in Web of Science and 37 in Scopus, she has garnered more than 900 citations and achieved an h-index of 17. Her groundbreaking research focuses on mesenchymal stem cells and exosomes, particularly their applications in neurodegenerative diseases like Alzheimer’s. She leads nationally funded projects and serves as a mentor to graduate students, contributing significantly to Turkey’s scientific advancement in cellular and molecular therapy.

Academic Profile

Google Scholar
Orcid

Early Academic Pursuits

From the outset of her academic journey, Dr. Gülçin Gacar exhibited a strong dedication to medical sciences, particularly clinical microbiology and regenerative medicine. Her foundational studies laid the groundwork for her specialization in stem cell biology and advanced biomedical techniques. As she advanced through the academic ranks, her commitment to translational research became evident, inspiring a deep dive into the dynamic world of mesenchymal stem cells and cellular therapies.

Professional Endeavors

Currently serving as an Associate Professor at Kocaeli University, Dr. Gacar is affiliated with the Center for Stem Cell and Gene Therapies under the Institute of Health Sciences. She plays a critical role in bridging theoretical knowledge with clinical application. Her professional journey is characterized by a robust combination of teaching, research, and leadership, where she supervises graduate-level research and oversees important institutional initiatives in stem cell-based innovation.

Contributions and Research Focus

Dr. Gacar’s research primarily revolves around mesenchymal stem cells, exosomes (extracellular vesicles), and advanced applications of stem cell biology. One of her key projects involves investigating the therapeutic potential of exosomes derived from adipose tissue-origin mesenchymal stem cells on Alzheimer’s disease models using human neuroblastoma SHSY5Y cells. This cutting-edge study, supported by national scientific funding, illustrates her focus on neurological disorders and cellular therapies. With over 200 academic publications, including 54 indexed in Web of Science and 37 in Scopus, her work has become a cornerstone in regenerative medicine and neurocellular research.

Accolades and Recognition

Dr. Gacar’s exceptional scholarship is reflected in her impressive citation record—garnering over 900 citations with an h-index of 16 on Web of Science and 17 on Scopus. These metrics not only underscore the academic relevance of her research but also highlight her influence in the global scientific community. Her contributions have positioned her as a key opinion leader and trusted consultant in TÜBİTAK-funded national projects, further validating her expertise and dedication to scientific excellence.

Impact and Influence

Beyond publications and projects, Dr. Gacar is actively involved in mentoring the next generation of scientists. She has supervised numerous graduate theses, fostering a research culture grounded in innovation, rigor, and ethical science. Her influence extends into policy-making and practical clinical research, making her a vital figure in the implementation of stem cell technologies in both experimental and therapeutic contexts.

Legacy and Future Contributions

Dr. Gacar continues to expand the frontiers of stem cell research and regenerative neuroscience. Her ongoing efforts in developing novel diagnostic and therapeutic modalities through cellular and molecular engineering are poised to transform clinical approaches to degenerative diseases. With each project and publication, she reinforces her commitment to scientific discovery and paves the way for future breakthroughs in biotechnology and personalized medicine.

Neuroscience and Regenerative Innovation

At the intersection of neuroscience and regenerative biology, Dr. Gacar’s work exemplifies the possibilities of interdisciplinary research. Her current focus on exosome-based therapies in neurodegenerative conditions represents a bold step into the future of non-invasive, cell-free therapeutics. As the landscape of neuroscience evolves, her pioneering work will undoubtedly contribute to novel clinical strategies and global scientific advancement.

Publication

Isolation and in vitro characterisation of dental pulp stem cells from natal teeth
E Karaöz, BN Doğan, A Aksoy, G Gacar, S Akyüz, S Ayhan, ZS Genç
2010

Characterization of mesenchymal stem cells from rat bone marrow: ultrastructural properties, differentiation potential and immunophenotypic markers
E Karaoz, A Aksoy, S Ayhan, AE Sarıboyacı, F Kaymaz, M Kasap
2009

Rapid large-scale expansion of functional mesenchymal stem cells from unmanipulated bone marrow without animal serum
K Schallmoser, E Rohde, A Reinisch, C Bartmann, D Thaler, C Drexler, …
2008

High prevalence of OXA-51-type class D β-lactamases among ceftazidime-resistant clinical isolates of Acinetobacter spp.: co-existence with OXA-58 in multiple …
H Vahaboglu, F Budak, M Kasap, G Gacar, S Torol, A Karadenizli, …
2006

Immunoregulatory effects of human dental pulp-derived stem cells on T cells: comparison of transwell co-culture and mixed lymphocyte reaction systems
PC Demircan, AE Sariboyaci, ZS Unal, G Gacar, C Subasi, E Karaoz
2011

Protective effects of resveratrol on aging-induced cognitive impairment in rats
SS Gocmez, N Gacar, T Utkan, G Gacar, PJ Scarpace, N Tumer
2016

The paracrine immunomodulatory interactions between the human dental pulp derived mesenchymal stem cells and CD4 T cell subsets
AT Özdemir, RBÖ Özdemir, C Kırmaz, AE Sarıboyacı, ZSÜ Halbutoğlları, …
2016

PER-1 is still widespread in Turkish hospitals among Pseudomonas aeruginosa and Acinetobacter spp.
F Kolayli, G Gacar, A Karadenizli, A Sanic, H Vahaboglu, Study Group
2005

Phenotypic and proteomic characteristics of human dental pulp derived mesenchymal stem cells from a natal, an exfoliated deciduous, and an impacted third molar tooth
G Akpinar, M Kasap, A Aksoy, G Duruksu, G Gacar, E Karaoz
2014

The role of PIN1 on odontogenic and adipogenic differentiation in human dental pulp stem cells
YM Lee, SY Shin, SS Jue, IK Kwon, EH Cho, ES Cho, SH Park, EC Kim
2014

Conclusion 

Considering her scholarly output, impactful research on stem cell-based therapies, leadership in national research initiatives, and dedication to mentoring, Dr. Gulcin Gacar is highly deserving of the Best Researcher Award. Her innovative work in exosome-based treatment strategies for neurodegenerative diseases positions her as a leader in translational medical science. With continued emphasis on global engagement and high-impact dissemination, her research will not only advance scientific frontiers but also contribute meaningfully to patient care and public health. Thus, she stands as an exemplary model of academic excellence, innovation, and social relevance in biomedical sciences.

Mona Fikry | Cognitive Neuroscience | Best Academic Researcher Award

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Assist. Prof. Dr. Mona Fikry | Cognitive Neuroscience | Best Academic Researcher Award

Assist. Prof. Dr.  Mona Fikry, Faculty of Pharmacy-Cairo University, Egypt.

Dr. Mona Fikry Said, Assistant Professor of Pharmaceutical Chemistry at Cairo University, stands out as a dedicated educator, researcher, and mentor in the field of medicinal chemistry. Her academic journey reflects a blend of deep scientific knowledge and practical teaching expertise. She has supervised numerous postgraduate theses and published extensively in prestigious journals. Her research, particularly in the synthesis and pharmacological evaluation of novel compounds for neurodegenerative diseases, highlights her commitment to addressing real-world health challenges. Beyond her publications, Dr. Said’s influence extends through academic collaboration, curriculum development, and mentorship.

Profile

Google Scholar

🎓 Early Academic Pursuits

Dr. Mona Fikry Said began her academic journey with a strong foundation in pharmaceutical sciences, eventually channeling her passion for medicinal chemistry into advanced academic and research endeavors. Her early commitment to learning laid the groundwork for a career dedicated to both academic excellence and scientific innovation. This formative stage was marked by rigorous study and a growing interest in drug design and discovery, which shaped her professional focus.

🧪 Professional Endeavors

Currently serving as an Assistant Professor of Pharmaceutical Chemistry at the Faculty of Pharmacy, Cairo University, Dr. Said has become a respected educator and mentor in her field. She has been actively involved in teaching a wide array of pharmaceutical chemistry courses and guiding numerous master’s and doctoral students through their theses. Her role extends beyond instruction, as she also participates in academic advising and serves as an external examiner for other institutions.

🔬 Contributions and Research Focus

Dr. Said’s research is deeply rooted in pharmaceutical chemistry, with a particular focus on the development of novel bioactive compounds. Her most recent completed project, “Probing new 3-hydrazinyl indole phenacetamide derivatives as multitarget anti-Alzheimer: Synthesis, in vivo, in vitro, and in silico studies,” exemplifies her multidisciplinary approach to drug discovery. She integrates synthesis, pharmacological testing, and computational modeling to explore new therapeutic avenues, especially for neurodegenerative diseases.

🏅 Accolades and Recognition

While not always publicly documented, Dr. Said’s scientific contributions are widely acknowledged through her publications in high-impact journals such as European Journal of Medicinal Chemistry, Molecular Diversity, Bioorganic Chemistry, and Future Medicinal Chemistry. Her expertise is recognized by her academic peers, and her involvement in national academic programs highlights her standing in the pharmaceutical education community.

🌐 Impact and Influence

Through her publications in SCI and Scopus-indexed journals, Dr. Said has significantly contributed to the body of knowledge in pharmaceutical chemistry. Her work bridges theoretical research and practical applications, influencing both the academic landscape and the early stages of pharmaceutical development. By mentoring postgraduate students and collaborating across institutions, she has helped cultivate a new generation of researchers in Egypt and beyond.

📘 Legacy and Future Contributions

Dr. Said’s lasting impact lies not only in her research but also in her educational leadership. With each class she teaches and each thesis she supervises, she sows the seeds for future advancements in medicinal chemistry. Her continued involvement in clinical academic programs and university examinations ensures that her influence will resonate across institutions for years to come. Looking forward, her research aims to expand into more diverse therapeutic targets, further strengthening Cairo University’s role in pharmaceutical innovation.

🧬 Research Vision in Pharmaceutical Chemistry

With an enduring commitment to discovery, Dr. Mona Fikry Said envisions a research future driven by interdisciplinary collaboration and the integration of cutting-edge techniques. Her dedication to the design and synthesis of multitarget agents reflects a broader mission to combat complex diseases like Alzheimer’s. In doing so, she positions herself at the forefront of modern pharmaceutical chemistry, where innovation and impact go hand in hand.

Publication

  • Synthesis of novel 1,3,4-trisubstituted pyrazoles as anti-inflammatory and analgesic agents
    FA Ragab, NMA Gawad, HH Georgey, MF Said
    2013

 

  • Design and synthesis of ibuprofen-quinoline conjugates as potential anti-inflammatory and analgesic drug candidates
    AM Ghanim, AS Girgis, BM Kariuki, N Samir, MF Said, A Abdelnaser, …
    2022

 

  • Pyrazolone derivatives: Synthesis, anti-inflammatory, analgesic, quantitative structure–activity relationship and in vitro studies
    FAF Ragab, NM Abdel-Gawad, HH Georgey, MF Said
    2013

 

  • Synthesis and selective inhibitory effects of some 2-oxindole benzenesulfonamide conjugates on human carbonic anhydrase isoforms CA I, CA II, CA IX and CAXII
    RF George, MF Said, S Bua, CT Supuran
    2020

 

  • Synthesis, molecular modelling and QSAR study of new N-phenylacetamide-2-oxoindole benzensulfonamide conjugates as carbonic anhydrase inhibitors
    MF Said, RF George, A Petreni, CT Supuran, NM Mohamed
    2022

 

  • Synthesis and molecular docking of new imidazoquinazolinones as analgesic agents and selective COX-2 inhibitors
    HH Hassanein, HH Georgey, MA Fouad, AM El Kerdawy, MF Said
    2017

 

  • New NSAID conjugates as potent and selective COX-2 inhibitors: Synthesis, molecular modeling and biological investigation
    RM Bokhtia, SS Panda, AS Girgis, N Samir, MF Said, A Abdelnaser, …
    2023

 

  • Development of Isatin‐Based Schiff Bases Targeting VEGFR‐2 Inhibition: Synthesis, Characterization, Antiproliferative Properties, and QSAR Studies
    IA Seliem, SS Panda, AS Girgis, QL Tran, MF Said, MS Bekheit, …
    2022

 

  • Synthesis and computational studies of novel fused pyrimidinones as a promising scaffold with analgesic, anti-inflammatory and COX inhibitory potential
    MF Said, HH Georgey, ER Mohammed
    2021

 

  • Novel Curcumin Mimics: Design, Synthesis, Biological Properties and Computational Studies of Piperidone‐Piperazine Conjugates
    MA Youssef, SS Panda, DR Aboshouk, MF Said, A El Taweel, M GabAllah, …
    2022

 

Conclusion

Through her unwavering dedication to pharmaceutical chemistry, Dr. Said has carved out a meaningful role in academia and research. Her work not only advances scientific understanding but also nurtures future innovators in the field. With a strong foundation in both teaching and research, and a vision for multidisciplinary innovation, she is poised to continue making impactful contributions to drug discovery and pharmaceutical education in the years to come.

Jiwei Nie | Emerging Areas in Neuroscience | Best Researcher Award

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Dr. Jiwei Nie | Emerging Areas in Neuroscience | Best Researcher Award

Dr. Jiwei Nie, Haier Group, China.

Jiwei Nie is an accomplished Chinese researcher specializing in Artificial Intelligence-based Pattern Recognition and Intelligent Detection, with a strong focus on AI large models. His academic journey began with a Bachelor’s in Mechanical Design and Automation and evolved into a deeply integrated path through a Master’s and Ph.D. in Control Science and Engineering at Northeastern University. Throughout his doctoral research, he has made notable contributions to the field of Visual Place Recognition (VPR) for autonomous systems, publishing in prestigious journals such as IEEE Transactions on Intelligent Transportation Systems and IEEE Robotics and Automation Letters. Jiwei’s innovations—especially in lightweight, training-free image descriptors and adaptive texture fusion—have positioned him at the forefront of applied AI in robotics and automation. He has also presented at major international conferences and holds multiple patents.

Profile

Google Scholar

🎓 Early Academic Pursuits

 Jiwei Nie displayed a deep interest in engineering and innovation from an early age. His academic journey began at Hebei University of Science and Technology, where he pursued a Bachelor’s degree in Mechanical Design, Manufacturing, and Automation. His strong academic performance earned him first-class honors, and he graduated in July 2018. Motivated to delve deeper into the fusion of machinery and intelligence, he advanced to Northeastern University, completing his Master’s degree in Mechanical and Electronic Engineering by July 2020. Driven by a vision to integrate control systems with intelligent technologies, he enrolled in a PhD program in Control Science and Engineering under a prestigious Integrated Master-PhD track, further solidifying his expertise in the intelligent automation domain.

💼 Professional Endeavors

Jiwei’s professional development has been tightly interwoven with his academic path, where he has continuously applied theoretical insights to practical problems in Artificial Intelligence and Control Systems. As a member of the Communist Party of China, he approaches his work with a strong sense of discipline and public responsibility. His fluency in English, proven by his CET-6 certification, has enabled him to actively contribute to the global research community, engaging in international collaborations and conferences. Alongside his research, Jiwei has contributed to academic circles through mentorship roles and cross-institutional projects, making a significant impact both inside and outside his university.

🤖 Contributions and Research Focus

Jiwei Nie’s research is at the forefront of Artificial Intelligence-based Pattern Recognition and Intelligent Detection, with a special emphasis on AI Large Models. His work focuses on developing lightweight, efficient algorithms for Visual Place Recognition (VPR)—a critical capability for autonomous vehicles and robotic systems. He has pioneered new methods in saliency encoding, feature mixing, and texture fusion, leading to more robust and adaptive AI systems. Through these contributions, he has addressed real-world challenges in long-term navigation and intelligent perception, pushing the boundaries of control science and machine intelligence.

🏆 Accolades and Recognition

During his PhD, Jiwei published multiple high-impact articles in leading SCI-indexed journals. His paper in the IEEE Transactions on Intelligent Transportation Systems, titled “A Training-Free, Lightweight Global Image Descriptor for Long-Term Visual Place Recognition Toward Autonomous Vehicles”, has been particularly well-received and is ranked in Q1. Additional works in IEEE Robotics and Automation Letters have been ranked in Q2, highlighting his innovations such as MixVPR++ and Efficient Saliency Encoding. Furthermore, Jiwei’s presence has been notable at world-class conferences like ICPR, ICRA, and IROS, where he presented his work to a global audience of peers and experts. He also holds several patents, including an invention patent, and continues to submit further manuscripts to top-tier venues.

🌍 Impact and Influence

Jiwei’s research has had a significant influence on the future of intelligent transportation and autonomous systems. His development of training-free VPR models has contributed to making autonomous navigation more scalable and cost-effective, especially in dynamic environments where traditional AI systems fail. His proposed methods are not only academically rigorous but are also computationally efficient, paving the way for real-world deployment. Through his innovation and academic collaborations, he has helped bridge the gap between theoretical AI models and practical engineering applications, which is vital for industries moving toward Industry 4.0 and smart mobility solutions.

🧠 Legacy and Future Contributions

Looking ahead, Jiwei Nie aspires to deepen his research in generalized large AI models, expanding the scalability and generalization abilities of pattern recognition systems across domains beyond transportation—such as smart surveillance, industrial robotics, and medical imaging. His planned future publications and continued patent filings reflect a strong ambition to lead the next generation of intelligent systems research. Jiwei is committed to fostering innovation that aligns with both academic excellence and societal needs, aiming to establish himself as a pioneering researcher and mentor in the evolving field of intelligent detection and AI integration.

🔬 Vision in AI and Control Engineering

Jiwei Nie stands as a rising expert in the convergence of Artificial Intelligence, Control Science, and Robotic Vision, a field essential for the future of smart systems and automation. His deep technical knowledge, coupled with a strategic vision, positions him to contribute not only as a researcher but also as a thought leader in AI-driven engineering. With a career rooted in innovation and societal benefit, his trajectory points toward a legacy of breakthroughs that will influence smart cities, autonomous systems, and global AI research landscapes for years to come.

Publication

  • Title: A survey of extrinsic parameters calibration techniques for autonomous devices
    Authors: J Nie, F Pan, D Xue, L Luo
    Year: 2021

 

  • Title: A training-free, lightweight global image descriptor for long-term visual place recognition toward autonomous vehicles
    Authors: J Nie, JM Feng, D Xue, F Pan, W Liu, J Hu, S Cheng
    Year: 2023

 

  • Title: Forest: A lightweight semantic image descriptor for robust visual place recognition
    Authors: P Hou, J Chen, J Nie, Y Liu, J Zhao
    Year: 2022

 

  • Title: A novel image descriptor with aggregated semantic skeleton representation for long-term visual place recognition
    Authors: J Nie, JM Feng, D Xue, F Pan, W Liu, J Hu, S Cheng
    Year: 2022

 

  • Title: Efficient saliency encoding for visual place recognition: Introducing the lightweight pooling-centric saliency-aware VPR method
    Authors: J Nie, D Xue, F Pan, Z Ning, W Liu, J Hu, S Cheng
    Year: 2024

 

  • Title: 3D semantic scene completion and occupancy prediction for autonomous driving: A survey
    Authors: G Xu, W Liu, Z Ning, Q Zhao, S Cheng, J Nie
    Year: 2023

 

  • Title: A Novel Image Descriptor with Aggregated Semantic Skeleton Representation for Long-term Visual Place Recognition
    Authors: N Jiwei, F Joe-Mei, X Dingyu, P Feng, L Wei, H Jun, C Shuai
    Year: 2022

 

  • Title: Optic Disc and Fovea Localization based on Anatomical Constraints and Heatmaps Regression
    Authors: L Luo, F Pan, D Xue, X Feng, J Nie
    Year: 2021

 

  • Title: A Novel Fractional-Order Discrete Grey Model with Initial Condition Optimization and Its Application
    Authors: Y Liu, F Pan, D Xue, J Nie
    Year: 2021

 

  • Title: EPSA-VPR: A lightweight visual place recognition method with an Efficient Patch Saliency-weighted Aggregator
    Authors: J Nie, Q Zhào, D Xue, F Pan, W Liu
    Year: 2025

 

🔚 Conclusion

With a solid foundation in engineering and control systems and an innovative mindset in artificial intelligence, Jiwei Nie is poised to become a key figure in the evolution of intelligent automation technologies. His work contributes not only to academic theory but also to practical applications that influence the development of autonomous vehicles, intelligent detection systems, and large AI model architectures. As he approaches the completion of his Ph.D. in early 2025, Jiwei is expected to continue pushing technological boundaries, inspiring future advancements in AI research and real-world intelligent systems deployment.

Chen Shoubin | Behavioral Neuroscience | Best Researcher Award

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Dr. Chen Shoubin | Behavioral Neuroscience | Best Researcher Award

Dr. Chen Shoubin, Shenzhen University,  China.

Dr. Shoubin Chen is a forward-thinking Research Fellow at the Guangdong Laboratory of Artificial Intelligence and Digital Economy (Shenzhen), affiliated with Shenzhen University. With a Ph.D. in Photogrammetry and Remote Sensing, his career has been rooted in the intersection of spatial intelligence, robotics, and AI. From leading national research projects to publishing in reputable journals and securing multiple invention patents, Dr. Chen has made substantial contributions to the field of embodied intelligent robotics. His research emphasizes multi-sensor fusion and autonomous mapping, aiming to give machines human-like spatial perception and decision-making capabilities.

Profile

Google Scholar

 

📚 Early Academic Pursuits

Shoubin Chen’s academic journey began with a strong foundation in geospatial sciences, culminating in a Ph.D. in Photogrammetry and Remote Sensing in 2020. This prestigious degree was awarded through a rigorous joint training program between Wuhan University and the Finnish Geospatial Research Institute. During his doctoral studies, he developed a deep interest in integrating advanced spatial data techniques with artificial intelligence, laying the groundwork for his future research endeavors. His early academic phase was marked by a commitment to cross-border scientific collaboration and multidisciplinary exploration, which has since defined his research approach.

🧑‍💻 Professional Endeavors

Currently serving as a Research Fellow and graduate supervisor at the Guangdong Laboratory of Artificial Intelligence and Digital Economy (Shenzhen) and Shenzhen University, Dr. Chen plays a pivotal role in advancing embodied intelligence within the Spatial Intelligence Team. His responsibilities include mentoring postgraduate students, overseeing cutting-edge research, and steering major national and provincial scientific projects. He has contributed to several national-level initiatives, including two National Natural Science Foundation of China grants, support from the China Postdoctoral Science Foundation, and sub-projects under the National Key Research and Development Program. These experiences have sharpened his expertise in high-precision robotic mapping and autonomous navigation.

🤖 Contributions and Research Focus

Dr. Chen’s primary research focus lies in embodied intelligent robotics, with an emphasis on multi-sensor fusion, robotic perception, and spatial mapping technologies. He is recognized for integrating data from various sensing modalities to improve the autonomy and spatial awareness of robotic systems. His innovations aim to empower robots with human-like spatial understanding, allowing them to operate reliably in complex environments. This research direction is crucial for applications ranging from autonomous vehicles to intelligent service robots, contributing significantly to the frontier of AI-driven robotics.

🏅 Accolades and Recognition

Throughout his academic and professional career, Shoubin Chen has garnered considerable recognition for his scientific excellence. He has published nearly ten high-quality papers as either the first or corresponding author in SCI Q2 journals and CCF B-tier or higher conferences and journals. Moreover, he has applied for over ten invention patents, underscoring his commitment to both theoretical advancement and practical application. His reputation in the academic community is further highlighted by his service as a peer reviewer for prestigious platforms such as the IEEE Internet of Things Journal, Remote Sensing of Environment, IEEE Transactions on Intelligent Vehicles, and ICRA, one of the top robotics conferences globally.

🌐 Impact and Influence

Dr. Chen’s work has had a profound impact on the fields of AI, robotics, and spatial computing. His multi-disciplinary approach has influenced how robots understand and interact with their environments, offering transformative possibilities in smart cities, autonomous transport, and digital mapping. By fusing photogrammetry with robotics and AI, he has contributed to a new paradigm in spatial intelligence that bridges digital perception and physical action. His projects have not only generated academic outputs but have also driven technological innovations with potential for real-world deployment.

🌱 Legacy and Future Contributions

As a mentor, innovator, and research leader, Shoubin Chen continues to inspire the next generation of scientists and engineers in AI and robotics. His forward-looking vision involves deepening the integration of embodied intelligence with environmental understanding, enabling machines to collaborate more intuitively with humans. He is poised to expand his research to include human-robot interaction, sustainable urban intelligence, and smart sensing systems. With a growing portfolio of publications, patents, and mentorship experiences, his contributions are set to leave a lasting legacy in the development of intelligent systems that seamlessly bridge perception and action.

🔬 Vision in Artificial Intelligence and Robotics

Guided by a vision that combines spatial science with artificial cognition, Dr. Chen’s work embodies the future of AI-powered robotics. His pursuit of intelligent, context-aware robotic systems aligns with global goals in automation, smart infrastructure, and digital economy. As AI becomes increasingly pervasive in everyday life, his contributions are steering the technology toward safer, more efficient, and more interactive systems. Through continuous innovation and collaboration, he remains at the forefront of a transformative research frontier that blends engineering precision with visionary thinking.

Publication

  • Title: Exploring embodied multimodal large models: Development, datasets, and future directions
    Authors: S Chen, Z Wu, K Zhang, C Li, B Zhang, F Ma, FR Yu, Q Li
    Year: 2025

 

  • Title: Distributed Robust Communication-Efficient Multi-Robot SLAM Combining Real-Time Intersection and Historical Loop Constraints
    Authors: B Zhang, Z Xiong, J Qiu, S Chen, Y Hu, S Chen
    Year: 2025

 

  • Title: TextGeo-SLAM: A LiDAR SLAM With Text Semantics and Geometric Constraints-Based Loop Closure
    Authors: S Chen, C Li, Q Jiang, X Zhuang, B Zhang, B Zhou, Q Li
    Year: 2024

 

  • Title: ASL-SLAM: A LiDAR SLAM with activity semantics-based loop closure
    Authors: B Zhou, C Li, S Chen, D Xie, M Yu, Q Li
    Year: 2023

 

  • Title: Comparative analysis of SLAM algorithms for mechanical LiDAR and solid-state LiDAR
    Authors: B Zhou, D Xie, S Chen, H Mo, C Li, Q Li
    Year: 2023

 

  • Title: Research on SLAM based on LiDAR/visual fusion (LV-SLAM)
    Authors: C Shoubin
    Year: 2023

 

  • Title: Cooperative smartphone GNSS/PDR for pedestrian navigation
    Authors: C Jiang, Y Chen, C Chen, S Chen, Q Meng, Y Bo, J Hyyppa
    Year: 2022

 

  • Title: Indoor Attitude Estimation Using Equipped Gyroscopes and Depth Sensors
    Authors: Q Shi, Z Song, Z Xiao, S Chen, F Wang
    Year: 2022

 

  • Title: LI-SLAM: Fusing LiDAR and Infrared Camera for Simultaneous Localization and Mapping
    Authors: B Zhou, D Xie, S Chen, C Li, H Mo
    Year: 2022

 

  • Title: NDT-LOAM: A real-time LiDAR odometry and mapping with weighted NDT and LFA
    Authors: S Chen, H Ma, C Jiang, B Zhou, W Xue, Z Xiao, Q Li
    Year: 2021

 

✅ Conclusion

In conclusion, Dr. Shoubin Chen exhibits all the core qualities of a Best Researcher Award recipient: deep scientific insight, proven research leadership, strong publication and patent output, and a visionary approach to solving real-world problems through AI and robotics. While there are opportunities to grow his international footprint, his current accomplishments already place him among the leading young researchers in his field. Based on the evidence of impact, innovation, and research excellence, he is highly suitable for the Best Researcher Award.

Sukesh Sinha | Neuropharmacology | Lifetime achievement Award

Published on by Neuroscientists

Prof. Dr. Sukesh Sinha | Neuropharmacology | Lifetime achievement Award

Prof. Dr. Sukesh Sinha,  National Institute of Nutrition-ICMR, India.

Dr. Sukesh Narayan Sinha, a seasoned toxicologist and research leader, has dedicated his career to advancing the fields of food safety, drug toxicology, pesticide toxicology, and pharmacology. Starting with a strong academic foundation in chemistry from Bihar University, he honed his expertise further through international training at the University of Helsinki and the CDC in the USA. Rising through the ranks of India’s premier health research institutions under the ICMR, Dr. Sinha’s career spans critical research roles that have directly impacted national health and safety policies. His global collaborations and leadership roles reflect a career built on scientific rigor, public service, and continuous learning.

Profile

Google Scholar

 

🎓 Early Academic Pursuits

Born on January 3rd, 1965, Dr. Sukesh Narayan Sinha’s academic journey began with a profound interest in the field of chemistry. He earned his B.Sc. Honours in Chemistry in 1989, followed by an M.Sc. in Chemistry in 1993, and later a Ph.D. in Chemistry in 1999—all from Bihar University, Muzaffarpur. His pursuit of advanced scientific knowledge extended internationally, where he underwent specialized analytical skill development in toxicology at the University of Helsinki, Finland. These foundational years cemented his passion for chemical and toxicological research, shaping the path for a distinguished career in public health and environmental safety.

🧪 Professional Endeavors in Toxicology

Dr. Sinha’s career has been marked by continuous progression through India’s foremost medical and research institutions under the Indian Council of Medical Research (ICMR). Beginning as a Research Fellow at the National Institute of Malaria Research, he moved into industry as a Research Scientist at Alkame Laboratory. His return to the ICMR system in 2001 marked the beginning of a steady ascent through scientific ranks—from Scientist-B to his current post as Senior Grade Deputy Director (Scientist-F) at the ICMR-National Institute of Nutrition (NIN), Hyderabad. He also held key roles at the ICMR-National Institute of Occupational Health, contributing immensely to occupational and environmental health research.

🧬 Contributions and Research Focus

Specializing in Food Toxicology, Drug Research & Toxicology, Pesticide Toxicology, and Pharmacology, Dr. Sinha has focused on identifying and mitigating chemical risks in food and the environment. His work has had a direct impact on public health safety standards in India. Through advanced analytical techniques and interdisciplinary collaboration, he has played a central role in guiding policy and regulatory frameworks concerning food safety. His expertise has not only contributed to toxicological research but has also enhanced national capacities in monitoring hazardous substances affecting human health.

🌍 Global Collaborations and Scientific Exposure

Dr. Sinha’s vision and research have reached global platforms. Notably, he served as a Visiting Scientist at the University of Cincinnati, USA, where he collaborated with experts in Environmental Health. He also completed two intensive courses on health and safety under the Centers for Disease Control and Prevention (CDC) in Atlanta, USA. These international exposures have enriched his scientific perspective, enabling him to incorporate global best practices into India’s health safety frameworks and toxicology research protocols.

🏅 Accolades and Recognition

Throughout his career, Dr. Sinha has earned recognition for his commitment and excellence in scientific research. While specific awards are not listed, his steady promotion within the ICMR ranks—from Scientist-B to Scientist-F—reflects institutional trust in his capabilities and leadership. His selection as a visiting scientist abroad and participation in elite training programs also underscore his status as a respected voice in toxicology and public health research.

📢 Impact and Influence on Public Health

Through his extensive research and governmental role, Dr. Sinha has contributed to national strategies on food safety and toxic substance regulation. His input influences decisions affecting millions of citizens, especially in areas related to food contaminants, drug residues, and environmental pollutants. He continues to serve as a bridge between laboratory research and real-world applications that safeguard public health in India.

🔬 Legacy and Future Contributions

Dr. Sinha’s legacy lies in his unwavering commitment to science and service. With decades of experience and an expanding portfolio of national and international collaborations, he is poised to continue influencing future research, shaping young scientific minds, and contributing to India’s health security. His role at ICMR-NIN ensures that his insights and leadership will guide public health policies and toxicology advancements for years to come.

Publication

  • Quantification of organophosphate insecticides and herbicides in vegetable samples using the “Quick Easy Cheap Effective Rugged and Safe” (QuEChERS) method and a high …
    SN Sinha, K Vasudev, MVV Rao2012

 

  • Distribution of pesticides in different commonly used vegetables from Hyderabad, India
    SN Sinha, MVV Rao, K Vasudev2012

 

  • Air pollution from solid fuels.
    SN Sinha, PK Nag2011

 

  • Environmental monitoring of benzene and toluene produced in indoor air due to combustion of solid biomass fuels
    SN Sinha, PK Kulkarni, SH Shah, NM Desai, GM Patel, MM Mansuri, …2006

 

  • Repeated episodes of endosulfan poisoning
    A Dewan, VK Bhatnagar, ML Mathur, T Chakma, R Kashyap, HG Sadhu, …2004

 

  • Effect of dissociation energy on ion formation and sensitivity of an analytical method for determination of chlorpyrifos in human blood, using gas chromatography–mass …
    SN Sinha, R Pal, A Dewan, MM Mansuri, HN Saiyed2006

 

  • A novel method for pesticide analysis in refined sugar samples using a gas chromatography–mass spectrometer (GC–MS/MS) and simple solvent extraction method
    SN Sinha, VK Bhatnagar, P Doctor, GS Toteja, NP Agnihotri, RL Kalra2011

 

  • A liquid chromatography mass spectrometry-based method to measure organophosphorous insecticide, herbicide and non-organophosphorous pesticide in grape and apple samples
    SN Sinha, MVV Rao, K Vasudev, M Odetokun2012

 

  • Quantification of organophosphate insecticides in drinking water in urban areas using lyophilization and high-performance liquid chromatography–electrospray ionization-mass …
    SN Sinha, K Vasudev, MVV Rao, M Odetokun2011

 

  • Inhibition of protein glycation by procyanidin‐B2 enriched fraction of cinnamon: delay of diabetic cataract in rats
    P Muthenna, G Raghu, C Akileshwari, SN Sinha, P Suryanarayana, …2013

 

🏁 Conclusion

Dr. Sukesh Narayan Sinha stands as a respected figure in India’s scientific community, with an enduring impact on toxicology research and public health safety. His career reflects a seamless integration of deep scientific knowledge, practical application, and international collaboration. As he continues his service at ICMR-NIN, his contributions promise to leave a lasting legacy in strengthening food safety standards, environmental health, and public policy for future generations. Dr. Sinha’s journey inspires commitment to research excellence and exemplifies the profound role of science in safeguarding society.

 

Sahar Mohammadzadeh | Neurodevelopmental Processes | Breakthrough Research Award

Published on by Neuroscientists

Assist. Prof. Dr. Sahar Mohammadzadeh | Neurodevelopmental Processes | Breakthrough Research Award

Assist. Prof. Dr. Sahar Mohammadzadeh, Damghan university,  Iran.

Dr. Sahar Mohammadzadeh is an accomplished Assistant Professor at Damghan University, whose academic path began in French literature but evolved into a distinguished career in sport sciences. With advanced degrees from Shahid Beheshti University and international research experience in Switzerland, she has specialized in motor behavior, mental fatigue, and cognitive performance in athletes. Her scholarly contributions blend neuroscience and physical education, positioning her at the intersection of motor learning and brain-based performance enhancement. From improving gait in elderly populations to exploring attention networks in skilled athletes, her research reflects both depth and diversity in human movement science.

Profile

Google Scholar

 

🎓 Early Academic Pursuits

Dr. Sahar Mohammadzadeh embarked on her academic journey with a Bachelor’s degree in French Language and Literature from the University of Tehran, graduating in 2009. Her transition from the humanities to sport sciences marked a unique interdisciplinary path that shaped her future contributions. Driven by a passion for understanding human movement and cognitive performance, she pursued her M.Sc. in Physical Education and Sport Sciences with a specialization in Motor Behavior at Shahid Beheshti University, completing it in 2012. Her academic dedication culminated in a Ph.D. in Motor Behavior – Motor Learning from the same institution in 2019, where she laid the foundation for her lifelong commitment to sport psychology and motor cognition.

🧠 Research Focus and Scientific Contributions

Dr. Mohammadzadeh’s research primarily centers on mental fatigue, cognitive performance, and motor learning in athletes. Her Ph.D. dissertation, focusing on the effect of cognitive training on behavioral and electrophysiological indicators of attention network function following mental fatigue in skilled athletes, illustrates her deep engagement with the neurocognitive dimensions of sport performance. She explores how mental exhaustion influences athletic efficiency and how cognitive interventions can enhance attentional capabilities. Her research aligns neuroscience with sports science, contributing valuable insights into athlete preparedness and cognitive resilience.

👩‍🏫 Professional Endeavors and Academic Roles

Currently serving as an Assistant Professor in the Department of Sport Sciences at Damghan University, Iran, Dr. Mohammadzadeh plays a pivotal role in shaping future scholars and practitioners in the field. Her tenure at the university has been marked by a commitment to academic excellence, mentoring, and interdisciplinary research. She has also extended her academic boundaries internationally, having spent six months as a visiting scholar at the University of Lausanne, Switzerland, where she conducted research on brain activity and mental fatigue in athletes. This experience enriched her global perspective and reinforced her expertise in sport cognitive neuroscience.

🧬 Interdisciplinary Impact and Innovation

Bridging the gap between motor behavior, cognitive science, and athletic performance, Dr. Mohammadzadeh brings a unique lens to sport sciences. Her master’s thesis investigated the effect of balance training on gait kinematic characteristics in elderly women, reflecting her early interest in movement rehabilitation. With time, her work evolved into a more cognitive and neuropsychological domain, reflecting a sophisticated understanding of how mental states affect physical performance. Her interdisciplinary approach has helped in developing better training protocols and strategies for mental and physical endurance among athletes.

🌍 Global Recognition and Scholarly Engagement

Dr. Mohammadzadeh’s international exposure, particularly through her scholarly visit to Switzerland, has elevated her academic standing. She has collaborated with international peers in research focused on brain activity and mental fatigue—an area gaining critical attention in sports science. Her dual-language proficiency and academic versatility have enabled her to engage with diverse research communities and disseminate knowledge across borders.

🏅 Accolades and Academic Achievements

Throughout her academic journey, Dr. Mohammadzadeh has demonstrated outstanding performance, earning accolades for both her research quality and educational commitment. Her selection as a visiting scholar in Switzerland is a testament to her recognition in international academic circles. She continues to contribute actively through lectures, publications, and research, gaining respect as an emerging voice in the field of motor learning and athlete cognition.

🌱 Legacy and Future Contributions

With a strong foundation in both cognitive neuroscience and sport sciences, Dr. Sahar Mohammadzadeh is poised to make lasting contributions to the understanding of mental performance in athletes. Her future work aims to further investigate brain-behavior relationships in sport, design neurocognitive training modules, and foster holistic athlete development. As a dedicated educator and a passionate researcher, her legacy will be defined by her efforts to merge science with sport for better mental and physical performance.

Publication

  • Title: The effect of balance training on hip, knee, and ankle joints Kinematic compatibility of older women during walking
    Authors: A Farsi, H Ashayeri, S Mohammadzadeh
    Year: 2016

 

  • Title: The effect of six weeks balance training program on kinematic of walking in women elderly people
    Authors: A Farsi, H Ashayeri, S Mohammadzadeh
    Year: 2015

 

  • Title: The effect of cognitive fatigue on the neural efficacy of the executive control network among athletes: dual regulation system model
    Authors: S Mohammadzadeh, A Farsi, R Khosrowabadi
    Year: 2020

 

  • Title: Sonification of Motor Imagery in the Basketball Jump Shot: Effect on Muscle Activity Amplitude
    Authors: H Ramezanzade, G Badicu, S Cataldi, F Parimi, S Mohammadzadeh, …
    Year: 2023

 

  • Title: The effect of a play-centered SPARK physical education program on motor proficiency and self-efficacy in children with developmental coordination disorder
    Authors: S Mohammadzadeh, F Habibifar, H Ramezanzade, M Jafarzadeh, …
    Year: 2025

 

  • Title: Impact of Motivational Climate on Student Achievement in Sport: A Social Cognitive Theory Perspective
    Authors: S Mohammadzadeh, L Alizadeh
    Year: 2024

 

  • Title: Effects of vitamins K1 and K3 addition to diets with calcium deficiency on performance and physicochemical indicators of tibia bone in Japanese quails
    Authors: S Mohammadzadeh, T Vahdatpour, Y Ebrahimnezhad
    Year: 2018

 

  • Title: The Effect of Mental Fatigue on the Planning and Preparation of Alerting and Orienting Attention Networks in Athlete Students; A Non-Controlled Clinical Trial
    Authors: S Mohammadzadeh, A Farsi, R Khosrowabadi
    Year: 2018

 

  • Title: The effects of sensory motor exercise on strategies of stepping over obstacles in older adults women
    Authors: S Mohammadzadeh, F Habibifar, BZ Hatami, A Farsi
    Year: 2016

 

  • Title: Training-related changes in gait and balance in older women
    Authors: S Mohammadzadeh, F Habibifar, BZ Hatami
    Year: 2016

 

  • Title: The impact of play-based group motor program on gross motor function and self-efficacy in children with DCD
    Authors: F Habibifar, S Mohammadzadeh, A Farsi, M Jafarzadeh, A Rabavi
    Year: (Year not provided — likely around 2024–2025 based on style)

 

Conclusion

Through her innovative and interdisciplinary research, Dr. Sahar Mohammadzadeh has emerged as a key contributor to the evolving field of sport cognitive science. Her work not only advances academic knowledge but also provides practical solutions for athletic training and mental resilience. As she continues to explore the frontiers of brain activity and motor learning, her impact will resonate across both academic institutions and the broader sporting world. Her journey reflects a dynamic blend of scholarship, global engagement, and a vision for improving athletic and cognitive health through science.