Mr.Pezhman Raeisian Parvari | Augmented reality | Best Researcher Award

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Pezhman Raeisian Parvari | Augmented reality | Best Researcher Award

Pezhman Raeisian Parvari, Indiana University Bloomington, United States

Pezhman Raeisian Parvari is a seasoned UX/UI Designer and Architect with over 15 years of experience in design and research. He holds a Master’s in Human-Computer Interaction from SUNY College at Oswego and is skilled in UX design, augmented reality, 3D modeling, and user-centered methodologies. With expertise in tools like Figma, Adobe Aero, and Unity, Pezhman specializes in creating immersive digital experiences. He has a passion for blending design strategy and research to improve user interactions and experience, making complex systems intuitive and engaging. 🖥️🎨✨

Professional profile :

Google Scholar

Suitability for Best Researcher Award :

Pezhman Raeisian Parvari demonstrates exceptional interdisciplinary research and innovation across UX/UI design, Human-Computer Interaction (HCI), and immersive technologies such as Augmented and Virtual Reality. With over 15 years of professional and academic experience, he has significantly contributed to user-centered research across healthcare, cultural heritage, and digital interface design. His Master’s degree in HCI from SUNY Oswego and extensive hands-on roles—as UX researcher, AR/VR developer, and UI/UX designer—highlight a blend of academic rigor and applied research.

Education :

  • SUNY College at Oswego, Oswego, NY

    • Master of Arts in Human-Computer Interaction (Expected May 2024) 🎓

    • GPA: 3.96/4.0

    • Sigma Xi Award Recipient 2024 🏆

    • Treasurer, HCI Club (Sep 2023–May 2024)

  • Tehran University, Tehran, Iran

    • Master of Arts, Landscape Architecture (2010) 🌿

  • Sooreh Higher Education Institute, Tehran, Iran

    • Bachelor of Arts, Architecture (2005) 🏛️

  • Zanjan Azad University, Zanjan, Iran

    • Associate Degree in Architecture (2002) 🏗️

Professional Development :

Pezhman is committed to continuous professional growth, earning over 30 certifications in areas such as augmented reality, 3D modeling, wireframing, prototyping, and data analysis. He is well-versed in tools like Figma, 3D Max, Unity, and Adobe Suite, among others. His design expertise includes Interaction Design, AR experiences, User-Centered Design, Usability Testing, and Prototyping. Pezhman actively seeks innovative solutions to enhance user experience, often collaborating with cross-functional teams to refine digital interfaces and improve overall interaction flow. His dedication to learning and applying cutting-edge technology positions him as an expert in his field. 📚💡🚀

Research Focus :

Pezhman’s research centers on enhancing human-computer interaction through immersive design techniques, particularly in augmented reality (AR). He explores how user behavior and interaction patterns can be leveraged to create intuitive and engaging digital experiences. His focus also includes user-centered design methodologies, ensuring that technology solutions are accessible and meet user needs effectively. Pezhman is passionate about the intersection of architecture, design, and technology, aiming to push the boundaries of digital experiences in spatial design and interactive environments. His work merges creative design strategies with rigorous research to innovate and elevate UX/UI design. 💻🔍🌍

Awards and Honors :

  • Sigma Xi Award for excellent presentation research (2024) 🏅

  • Treasurer, Human-Computer Interaction (HCI) Club at SUNY Oswego (2023–2024) 💼

  • Over 30 Certifications in augmented reality, 3D modeling, prototyping, and more 🎓

Publication Top Notes : 

1. Building a taxonomy of evidence-based medical eXtended Reality (MXR) applications: towards identifying best practices for design innovation and global collaboration
2. ZENZONE: Practice Lifeskills in VR Game for Individuals with ADHD

  • Authors: Pezhman Raeisian Parvari, Jolanda G. Tromp

  • Publication Details: Specific publication details for this work are not readily available in the provided sources.sciexplor.com

3. “SWSS” – Student Wellness Screening Service

  • Authors: J. Lee, B. Silva, S. Sperrazza, M. Hammad, J. Keel, Pezhman Raeisian Parvari

  • Publication Details: Specific publication details for this work are not readily available in the provided sources.

Conclusion:

Pezhman Raeisian Parvari’s sustained commitment to research excellence, his innovative use of AR/VR in HCI, and his impactful, human-centered projects make him a highly deserving recipient of the Best Researcher Award. His profile aligns strongly with the values of research innovation, societal impact, and interdisciplinary excellence that such an award seeks to recognize.

Prof. Pinghui Wu | Technology | Best Researcher Award

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Prof. Pinghui Wu | Technology | Best Researcher Award

Prof. Pinghui Wu | Technology – Division Chief of Scientific Research at Quanzhou Normal University, China

Prof. Wu Pinghui, a distinguished academic from Quanzhou Normal University, has made remarkable contributions to the fields of advanced optics, materials science, and thermal engineering. With a robust portfolio of research, Wu’s work reflects a passion for innovation and scientific exploration, particularly in areas like metamaterials and solar energy technologies. Known for a collaborative approach, Wu has worked with numerous international researchers, driving forward impactful studies that influence both theoretical and applied sciences.

Profile:

Orcid | Scopus | Google Scholar

Education:

Prof. Wu Pinghui pursued advanced studies in materials science and optical engineering, laying a strong foundation for a career marked by academic excellence and groundbreaking research. The educational journey involved rigorous training in both theoretical principles and practical applications, fostering expertise in cutting-edge technologies. This academic background has been pivotal in shaping Wu’s approach to complex scientific challenges and interdisciplinary collaborations. 🎓

Experience:

With years of dedicated academic service, Wu has held prominent research and teaching positions at Quanzhou Normal University. This experience includes mentoring graduate students, leading research projects, and contributing to curriculum development in scientific disciplines. Wu’s role extends beyond academia, with active participation in international conferences and collaborative research initiatives that span across institutions and countries. 🌍

Research Interests:

Wu’s research interests are diverse, encompassing optical materials, thermal energy systems, and metamaterial-based devices. Key areas include the development of ultra-broadband solar absorbers, terahertz smart devices, and advanced optical reinforcement materials. Wu’s work is characterized by a focus on sustainability, energy efficiency, and the application of novel materials to solve real-world technological problems. 🔬

Awards:

While specific awards are not detailed, Wu’s academic achievements, high citation count, and influential publications underscore a career recognized for excellence. The impact of Wu’s research is reflected in the widespread adoption of scientific findings and contributions to the academic community. 🏆

Selected Publications:

  1. “Highly Localized Linear Array of Optical Rings with Multiple Tunable Degrees of Freedom” (2025) – Optics Communications ✨
  2. “Highly Efficient Color Tuning of Lithium Niobate Nanostructures on Flexible Substrate” (2025) – Materials 🌈
  3. “Ultra-Broadband Solar Absorber and Near-Perfect Thermal Emitter Based on Columnar Titanium Micro-Structure” (2025) – Applied Thermal Engineering ☀️
  4. “Bi-Directional Metamaterial Perfect Absorber Based on Gold Grating and TiO₂-InAs Normal Hexagonal Pattern Film” (2025) – Solar Energy Materials and Solar Cells ⚡
  5. “Thermal Radiation Analysis of a Broadband Solar Energy-Capturing Absorber Using Ti and GaAs” (2025) – Dalton Transactions 🌞
  6. “Ultra-Broadband Absorber and Near-Perfect Thermal Emitter Based on Multi-Layered Grating Structure Design” (2025) – Energy 🔥
  7. “Terahertz Smart Devices Based on Phase Change Material VO₂ and Metamaterial Graphene” (2025) – Optics and Laser Technology 🌐

Cited By: Over 6,610 citations, reflecting the widespread influence and recognition of these works. 📚

Conclusion:

Prof. Wu Pinghui’s academic journey exemplifies a commitment to scientific excellence and innovation. The combination of extensive research output, impactful publications, and interdisciplinary collaborations highlights a career dedicated to advancing knowledge and technology. Wu’s contributions not only enrich the academic community but also inspire future generations of researchers. This nomination for the Best Researcher Award is a testament to the profound impact Wu has made in the scientific world. 🌟

Dr. Tanushree Bhattacharjee | Emerging Technologies | Best Researcher Award

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Dr. Tanushree Bhattacharjee | Emerging Technologies | Best Researcher Award

Dr. Tanushree Bhattacharjee, GRIDsentry Private Limited, India

Dr. Tanushree Bhattacharjee is a distinguished cybersecurity expert specializing in substation automation, OT security, and intrusion detection systems (IDS). With a Ph.D. in Electrical Engineering from Jamia Millia Islamia, she has over seven years of experience securing critical infrastructure. As Sr. R&D Manager at GRIDsentry Pvt. Ltd., Bengaluru, she leads cutting-edge research in forensic analysis, deep packet inspection, and AI-powered threat modeling. Dr. Bhattacharjee has played a vital role in national and international cybersecurity testbeds, contributing to the advancement of IEC 61850, power grid security, and microgrid protection. Her expertise in AI/ML-based anomaly detection ensures the resilience of modern power systems. 🔐⚡

🌍 Professional Profile:

Google Scholar

Orcid

Scopus

🏆 Suitability for the Best Researcher Award 

Dr. Tanushree Bhattacharjee is an outstanding candidate for the Best Researcher Award, given her pioneering work in substation automation security and digital transformation. She has made significant contributions to intrusion detection, vulnerability assessment, and OT security in power grids. Her leadership in developing IDS/IPS solutions, coupled with her expertise in AI-powered anomaly detection, positions her as a key innovator in cyber-physical security. With a strong background in threat modeling, forensic analysis, and protocol security, her research directly impacts critical infrastructure protection. Her proven ability to bridge AI with cybersecurity makes her a deserving nominee for this prestigious recognition. 🏆🔍

🎓 Education

Dr. Tanushree Bhattacharjee holds a Ph.D. in Electrical Engineering from Jamia Millia Islamia, New Delhi (2017-2022), where she focused on substation automation and microgrid protection. She completed her Master’s in Power Systems at the Indian Institute of Engineering Science & Technology, Shibpur (2012-2014). Her academic work involved IEC 61850 protocols, cybersecurity in digital substations, and AI-driven security frameworks. Through hands-on research in power system modeling, microgrid security, and forensic analysis, she has contributed to cybersecurity innovations in critical infrastructure. Her education has provided a robust foundation for her advancements in intrusion detection and digital protection strategies. 🎓⚡🔬

💼 Experience 

As Sr. R&D Manager at GRIDsentry Pvt. Ltd., Bengaluru, Dr. Bhattacharjee leads research on intrusion detection systems (IDS), AI-driven threat modeling, and forensic analysis. Previously, as a Product Manager, she specialized in deep packet inspection and anomaly detection. She also worked as a Power System Security Engineer, focusing on IPS/IDS development and OT cybersecurity. Her tenure at Jamia Millia Islamia involved substation automation, protocol security, and microgrid testing. With expertise in vulnerability assessments, access control, and live cybersecurity testing, she has significantly contributed to the security of modern power infrastructures. 🔒💡🚀

🏅 Awards & Honors 

Dr. Bhattacharjee has received multiple accolades for her contributions to power system cybersecurity. She has been recognized for her outstanding research in IDS and AI-driven security mechanisms. Her work on IEC 61850-based intrusion detection won Best Paper Awards at leading cybersecurity conferences. She has been acknowledged by cybersecurity organizations for her role in developing AI-based threat detection tools. Additionally, she has contributed to national security projects, earning commendation from government agencies and industry leaders. Her expertise in forensic analysis, digital substation security, and OT cybersecurity has positioned her as a trailblazer in the field. 🏆🔍⚡

🔬 Research Focus

Dr. Bhattacharjee’s research integrates emerging technologies with cybersecurity, focusing on power system protection, IEC 61850 protocols, and digital substation automation. Her expertise includes intrusion detection, AI-based anomaly detection, and forensic security analysis. She explores cyber-physical system security, ensuring resilience against DDoS, MITM, and replay attacks. Her work in deep learning for security event detection enhances smart grid protection. She also specializes in protocol security, AI-driven attack mitigation, and operational technology (OT) cybersecurity. Through machine learning, threat modeling, and real-time testing, her research aims to fortify modern power infrastructures against evolving cyber threats. 🛰️🔐⚙️

📖 Publication Top Notes

  1. Hardware Development and Interoperability Testing of a Multivendor-IEC-61850-Based Digital Substation
    • Citations: 11
    • Year: 2022
  2. Planning of Renewable DGs for Distribution Network Considering Load Model: A Multi-Objective Approach
    • Citations: 9
    • Year: 2014
  1. Designing a Controller Circuit for Three-Phase Inverter in PV Application
    • Citations: 6
    • Year: 2018
  2. Digital Substations with the IEC 61850 Standard
    • Citations: 3
    • Year: 2021
  3. Power Quality Improvement of Grid Integrated Distributed Energy Resource Inverter
    • Citations: 2
    • Year: 2021