Dr. Caixia Cai | Green Connectivity Awards | Best Researcher Award

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Dr. Caixia Cai | Green Connectivity Awards | Best Researcher AwardΒ 

Dr. Caixia Cai, Shanghai Maritime University, China

Caixia Cai, also known as Jessica Cai, is a dedicated lecturer at Shanghai Maritime University, where she has been contributing to the field of information and communication intelligence systems since September 2020. she completed her B.S. in Communication Engineering at East China Jiaotong University in 2013, focusing on the design and implementation of local network systems based on GSM for railway applications. Cai pursued her Ph.D. at Donghua University, where she researched energy efficiency in wireless networks using cooperative relay systems under the supervision of Professor Runhe Qiu. Additionally, she was a joint Ph.D. student at the University of Delaware, collaborating with Professor Xiang-Gen Xia on mathematical theories and methods in wireless communications. Her research interests encompass multiple-input multiple-output (MIMO) systems, cooperative relays, green communication in wireless networks, and underwater acoustic sensor networks. Cai actively contributes to the academic community as a volunteer reviewer for several prestigious journals and conferences, including IET Communications and IEEE Transactions on Green Communication and Networking. Her work aims to advance the understanding and efficiency of communication systems, reflecting her commitment to innovation and excellence in the field.

Professional Profile:

SCOPUS

Summary of Suitability for Best Researcher Award:

Dr. Caixia Cai is a promising candidate for the Best Researcher Award due to her significant contributions to the field of wireless communications, particularly in energy efficiency and innovative transmission strategies. Currently a lecturer at Shanghai Maritime University, her academic journey includes extensive research experience and collaborative projects at prestigious institutions like the University of Delaware.

πŸŽ“ Education

  • Ph.D. Candidate
    Field: Information & Communication Intelligence System
    Institution: Donghua University, Shanghai, China
    Duration: June 2020 – September 2014
    Advisor: Professor Runhe Qiu
    Research Project: Research on Energy Efficiency of Wireless Network Based on Cooperative Relay
  • Joint Ph.D. Student
    Department: Electrical and Computer Engineering
    Institution: University of Delaware, Newark, Delaware, USA
    Duration: September 2017 – September 2019
    Advisor: Professor Xiang-Gen Xia
    Research Project: Mathematical Theory and Methods on Wireless Communications
  • B.S.
    Field: Communication Engineering
    Institution: East China Jiaotong University, Nanchang, China
    Duration: September 2009 – July 2013
    Advisor: Professor Yuejin Zhang
    Research Project: Design and Implementation of Local Network Side Based on GSM-Railway System

πŸ’Ό Work Experience

  • Lecturer
    Institution: Shanghai Maritime University
    Duration: September 2020 – Present

πŸ† Achievements

  • Conducted significant research in areas such as MIMO, cooperative relay, and green communication in wireless networks.
  • Contributed to the development of underwater acoustic sensor networks.

🌟 Awards and Honors

  • Served as a volunteer reviewer for esteemed journals and conferences, including:
    • IET Communications
    • Electrical Letters
    • IEEE Access
    • IEEE Transactions on Green Communication and Networking
    • IEEE Conference on Communication

PublicationΒ Top Notes:

Energy-efficient two-way full-duplex relay transmission strategy with SWIPT and direct links

Energy-Efficient Adaptive Bidirectional Transmission Strategy in Simultaneous Wireless Information and Power Transfer (SWIPT)-Enabled Cognitive Relay Network

A REVIEW OF KEY TECHNOLOGIES OF SHORE POWER SYSTEMS

Energy-efficient Full-duplex Transmission Strategy Design with SWIPT

Energy-Efficient Amplify-and-Forward Full-Duplex Transmission Strategy

Kamil Kisielewicz | Planting Practices award | Best Researcher Award

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Assist Prof Dr. Kamil Kisielewicz | Planting Practices award | Best Researcher Award

Medical Physics Department at National Oncology Instituteβ€”National Research Institute, Krakow Branch, Poland

Ph.D. Eng. Kamil Kisielewicz is a prominent Medical Physicist and Assistant Professor based in Krakow, Poland. With over 18 years of experience in medical physics, he specializes in radiation therapy and diagnostic radiology. Dr. Kisielewicz holds a Ph.D. in medical physics, with a thesis focusing on dose distribution in cathlabs. He has contributed significantly to the field through his research and has authored numerous articles in peer-reviewed journals. Currently, he is an Assistant Professor at the Maria SkΕ‚odowska-Curie National Institute of Oncology, where he heads the Quality Control Lab in Diagnostic Radiology. Dr. Kisielewicz is also actively involved in teaching, training future medical physicists, and participating in international projects, including those aimed at improving proton therapy techniques.

Profile:

ORCID Profile

Strengths for the Award:

  1. Extensive Education and Qualifications:
    • Kamil Kisielewicz holds a Ph.D. in Medical Physics and has completed multiple relevant theses, including a recent habilitation on advanced imaging modalities in radiology and radiotherapy. His qualifications demonstrate a strong theoretical foundation and expertise in the field.
  2. Diverse Work Experience:
    • With a career spanning nearly two decades, Kisielewicz has held various positions, including Assistant Professor, Medical Physicist, and scientific assistant at prestigious institutions. His experience in both clinical settings and academia enhances his practical understanding of medical physics.
  3. Significant Contributions to Research:
    • Kisielewicz has authored 24 original articles in peer-reviewed journals, contributing significantly to the body of knowledge in medical physics and radiotherapy. His involvement in multiple international and national projects showcases his active engagement in cutting-edge research.
  4. Leadership in Professional Societies:
    • He has held leadership positions in the Polish Society of Medical Physics, including Chairman and Vice-Chairman of the Krakow Branch. His role in these organizations reflects his commitment to advancing the field and collaborating with other professionals.
  5. Innovative Projects and Quality Assurance Development:
    • Kisielewicz developed a Quality Assurance system in diagnostic radiology, demonstrating his initiative in improving clinical practices and patient safety in medical physics.
  6. Commitment to Education:
    • His extensive involvement in teaching at various institutions, supervising theses, and conducting specialized training reflects his dedication to educating the next generation of medical physicists.

Areas for Improvement:

  1. Broader International Collaboration:
    • While Kisielewicz has participated in international projects, increasing collaborations with researchers from diverse backgrounds could enrich his research perspective and lead to innovative solutions.
  2. Enhanced Public Engagement:
    • Engaging more with the public and healthcare stakeholders could help bridge the gap between scientific research and its application, promoting greater awareness of the importance of medical physics.
  3. Increased Focus on Emerging Technologies:
    • As the field evolves, staying updated with the latest technological advancements in medical imaging and radiation therapy will be crucial. Expanding his research to include newer technologies could enhance his contributions.

Education:

Dr. Kamil Kisielewicz completed his education at prestigious institutions in Poland. He graduated from Boleslaw Chrobry High School in Lezajsk (1996-2000) with a focus on mathematics and physics. He then pursued a degree in medical physics and dosimetry at the Academy of Science and Technology AGH in Krakow, earning his engineering degree in 2004 with a thesis on clinical dosimetry in radiotherapy. He continued his academic journey, obtaining a Master of Science degree in 2005 with research on renovascular hypertension. In 2011, he completed his Ph.D. focusing on Monte Carlo simulations in cathlabs. In 2013, he earned a specialist diploma in medical physics, and in 2023, he achieved habilitation with a thesis examining advanced imaging modalities in radiology and radiotherapy. This robust educational background has equipped Dr. Kisielewicz with comprehensive knowledge and expertise in his field.

Experience:

Dr. Kamil Kisielewicz has amassed extensive experience in medical physics since 2005. He began his career as a Younger Assistant in the Radiology Department at the Regional Hospital No. 2 in Rzeszow. He then served as a Medical Physicist at the Center of Oncology in Krakow from 2006 to 2009. His career progressed, and since November 2011, he has held dual roles as a Scientific Assistant and Medical Physicist at the National Institute of Oncology, where he is involved in the MAESTRO Project. Dr. Kisielewicz has also held the position of Assistant Professor and Head of the Quality Control Lab in Diagnostic Radiology. His clinical training at the Roberts Proton Therapy Centre in Philadelphia and his work as a Regional Consultant for medical physics underscore his commitment to advancing the field. He has led numerous scientific projects and has contributed significantly to the professional community through teaching and mentorship.

Research Focus:

Dr. Kamil Kisielewicz’s research primarily focuses on advancing techniques in radiation therapy and diagnostic radiology. His work emphasizes the optimization of dose distribution and verification in various treatment modalities, including proton therapy. He has conducted numerous studies comparing different imaging technologies and their impact on patient outcomes, particularly in relation to dose verification and safety protocols. His recent research includes exploring biological range uncertainties in proton therapy and evaluating the effectiveness of advanced imaging modalities in clinical practice. Dr. Kisielewicz is actively involved in international collaborations aimed at harmonizing treatment protocols in radiation therapy, ensuring high-quality patient care. His contributions have been recognized through various publications in peer-reviewed journals, highlighting his commitment to evidence-based practices in medical physics.

Publications Top Notes:

  • Proton Therapy Adaptation of Perisinusoidal and Brain Areas in the Cyclotron Centre Bronowice in Krakow: A Dosimetric Analysis 🌟
  • Quantification of biological range uncertainties in patients treated at the Krakow proton therapy centre πŸ“Š
  • Dose Distribution Comparison of Cerebrospinal Axis Irradiation. Helical Tomotherapy vs Proton Pencil Beam Scanning 🎯
  • Safe Proton Radiotherapy for Patients with Metallic Spine Stabilization System βš™οΈ
  • Study of relationship between dose, LET and the risk of brain necrosis after proton therapy for skull base tumors 🧠
  • Challenges in Radiotherapy Planning: Dose Verification in the Vicinity of the Border of Tissue-prosthesis Medium βš–οΈ
  • Comparison of Dose Received During Breast Cancer Diagnosis Performed by Using Two Different Imaging Modalities: Contrast-enhanced Spectral Mammography and Full-field Digital Mammography 🩻
  • Dose verification in radiotherapy of prostate cancer patients with hip prosthesis πŸ“‰
  • Investigations on Physical and Biological Range Uncertainties in KrakΓ³w Proton Beam Therapy Centre πŸ”
  • Patient dose evaluation in digital breast tomosynthesis πŸ“‘

Conclusion:

Kamil Kisielewicz stands out as a highly qualified and accomplished researcher in the field of medical physics. His extensive education, diverse work experience, significant contributions to research, and commitment to education and professional development position him as a strong candidate for the Best Researcher Award. While there are areas for improvement, particularly in expanding international collaborations and public engagement, his current achievements and ongoing contributions significantly outweigh these considerations. Overall, Kisielewicz’s work is vital to the advancement of medical physics, and he deserves recognition for his efforts and dedication.

Dr. Mahboob Syed | Biosensors | Best Researcher Award

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Dr. Mahboob Syed | Biosensors | Best Researcher Award

Dr. Mahboob Syed, Osmania University, India

Syed Mahboob is a distinguished physicist with a robust background in materials science. Born on July 25, 1978, in India, he holds a Ph.D. from Osmania University, where he specialized in relaxor ferroelectric compounds. With over 64 published research papers, he has made significant contributions to the field, particularly in dielectric properties and impedance studies. His postdoctoral research in Taiwan and Japan has furthered his expertise in semiconductor integration and materials characterization. Syed is multilingual, fluent in English, Hindi, Telugu, and Urdu, and has collaborated with various national and international institutions, enriching the global scientific community.

Professional Profile

google scholar

Summary of Suitability for Best Researcher Award:

Dr. Syed Mahboob is highly suitable for the Best Researcher Award due to his extensive academic qualifications, research experience, and impressive publication record. He holds a Ph.D. in Physics, awarded in 2006 by Osmania University, with a specialization in computational physics. His strong foundation in both theoretical and experimental physics has allowed him to contribute significantly to the fields of ferroelectrics, semiconductor integration, and dielectric materials. His research work has spanned prestigious institutions globally, including postdoctoral positions at National Taiwan University of Science and Technology and Hiroshima University, Japan. Throughout his research career, Dr. Mahboob has demonstrated expertise in advanced experimental techniques, including impedance spectroscopy, scanning electron microscopy, atomic force microscopy, and ferroelectric testing systems, which are critical in material science and sensor development.

Β πŸŽ“Β Education

Syed Mahboob completed his Ph.D. in Physics at Osmania University, Hyderabad, in August 2006, focusing on relaxor ferroelectric materials under Prof. G. S. Kumar. His academic journey began with an M.Sc. in Physics with a specialization in Computational Physics, graduating with distinction in 2000. Prior to that, he earned a B.Sc. in Mathematics, Physics, and Chemistry, achieving first division honors. His educational foundation has been instrumental in his extensive research career, enabling him to explore complex scientific phenomena and contribute to advancements in material sciences.

Β πŸ’Ό Experience

With a rich research experience spanning over two decades, Syed Mahboob has worked on multiple high-profile projects. He served as a Junior and Senior Research Fellow on projects funded by DST and DRDO, focusing on ferroelectric materials. His postdoctoral roles at National Taiwan University and Hiroshima University allowed him to delve into advanced ceramics and semiconductor research. Since 2009, he has dedicated himself to independent research, producing numerous publications that highlight his expertise in experimental techniques and materials characterization, including dielectric and impedance measurements.

Β πŸ…Β Awards and Honors

Syed Mahboob has received recognition for his contributions to the field of physics, particularly in the study of relaxor ferroelectrics. His Ph.D. research earned accolades for its innovative approach to material synthesis and characterization. His published papers have garnered citations and respect within the scientific community, further validating his expertise. He has been invited to speak at several international conferences, showcasing his research and insights into material properties. Syed continues to be a valuable asset to academic and research institutions, promoting advancements in physics.

  🌍 Research Focus

Syed Mahboob’s research primarily centers on relaxor ferroelectric materials and their applications in modern technology. His work investigates the dielectric properties and impedance behavior of various ceramic compounds, with a keen interest in lead-free materials. He employs advanced experimental techniques, including plasma-enhanced chemical vapor deposition and scanning electron microscopy, to study material characteristics at the microstructural level. His ongoing research aims to contribute to sustainable technologies and the development of new materials that can enhance electronic devices’ efficiency and performance.

Β πŸ“– Publication Top Notes

Impedance and ac conductivity studies on Ba(Nd0.2Ti0.6Nb0.2)O3 ceramic prepared through conventional and microwave sintering route
  • Citations: 62
Electrical conduction in (Na0.125Bi0.125Ba0.65Ca0.1)(Nd0.065Ti0.87Nb0.065)O3 ceramic
  • Citations: 47
Dielectric behaviour of microwave sintered rare-earth doped BaTiO3 ceramics
  • Citations: 31
Impedance spectroscopy and conductivity studies on B site modified (Na0.5Bi0.5)(NdxTi1βˆ’2xNbx)O3 ceramics
  • Citations: 21
Dielectric Properties of BaTiO3 Based Lead Free Relaxor Prepared Through Conventional and Microwave Sintering
  • Citations: 20