Dr. Fiona Wirrer-George | Antenna engineering | Best Researcher Award

PhD in Philosophy at Fiona Wirrer-George Oochunyung, Australia

Fiona Wirrer-George Oochunyung is an artist, performer, and academic researcher hailing from the Mbaiwum/Trotj, Alngith/Liningithi, and Wik Apalich Nations of Western Cape York, Australia. Currently residing on Gumuy/Walluburra/Yidinji and Yiringandji lands, Fiona’s creative work spans performance theatre, choreography, and literature. Her artistic practice is deeply rooted in the epistemology, ontology, and axiology of her Western Cape heritage, particularly informed by the teachings of her maternal grandmother. Fiona’s work employs auto-ethnography, weaving together traditional knowledge, song, dance, and contemporary artistic methods to express and interpret the cultural frameworks of her people.

Publication Profile

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Education🎓

Fiona Wirrer-George Oochunyung holds a Bachelor of Education (B’ED), Master of Education (M’ED), Graduate Certificate in Research Methodology (GCRM), and a PhD. Her academic journey is intricately connected to her First Nations heritage, blending formal education with the wisdom passed down through generations. Through her studies, she has explored First Nations cultural and spiritual methodologies, integrating them into her academic and creative practice. Her education allows her to merge traditional knowledge systems with modern academic frameworks, positioning her as a unique voice in the intersection of culture and research. 📚🌱

Experience 🎭

Fiona has a rich background in performance theatre, choreography, and literature, with a focus on Indigenous knowledge systems and creative expression. She draws from the epistemology of the Wik and Wikway systems, incorporating her lived experiences and cultural teachings into her artistic and academic work. As an academic researcher, she has contributed to the understanding of First Nations creative methodologies, auto-ethnography, and relational connectivity through song and dance. Her performances and research explore how cultural frameworks inform creative processes, blending traditional and contemporary practices to convey the value of First Nations systems of knowledge. 🩰🖋️

Awards and Honors 🏆

Fiona Wirrer-George Oochunyung has been recognized for her contributions to First Nations culture, creativity, and research. She has received numerous accolades for her work in performance theatre and choreography, as well as for her academic research in First Nations methodologies. Her unique approach, which blends traditional knowledge with contemporary artistic practices, has earned her accolades from both academic and artistic communities. Fiona’s work continues to influence and inspire those seeking to explore the intersections of culture, creativity, and research. 🌟🎨

Research Focus🔬

Fiona’s research is centered around First Nations cultural, spiritual, and creative methodologies, with a particular focus on the epistemology, ontology, and axiology of the Wik and Wikway systems. She explores how traditional knowledge systems inform contemporary creative practices, employing an auto-ethnographical approach to knowledge acquisition and interpretation. Her research draws from her lived experience and the teachings of her maternal grandmother, focusing on the amalgamation of song, dance, and relational connectivity to frame her work. Fiona’s research contributes to the broader understanding of how First Nations systems of Lore can inform modern creative and academic practices.

Publication Top Notes

📘 Interval Observation and Control for Continuous-Time Persidskii Systems
Published in: IEEE Transactions on Automatic Control, 2024
Contributors: Denis Efimov, Andrey Polyakov, Xubin Ping
DOI: 10.1109/TAC.2024.3387008

⚡ Optimal Flow Factor Determination in Vanadium Redox Flow Battery Control
Published in: IEEE Access, 2024
Contributors: Alexander Morozov, Mikhail Pugach, Andrey Polyakov, Pavel Osinenko, Anton Bolychev, Vladimir Terzija, Sergei Parsegov
DOI: 10.1109/ACCESS.2024.3361830

🛠️ Homogeneous Control Design Using Invariant Ellipsoid Method
Published in: IEEE Transactions on Automatic Control, 2024
Contributors: Siyuan Wang, Haibin Duan, Gang Zheng, Xubin Ping, Driss Boutat, Andrey Polyakov
DOI: 10.1109/TAC.2024.3384844

👥 Generalized Homogeneous Leader-Following Consensus Control for Multiagent Systems
Published in: IEEE Transactions on Control of Network Systems, 2024
Contributors: Min Li, Andrey Polyakov, Gang Zheng
DOI: 10.1109/TCNS.2023.3290429

🛵 Perturbed Unicycle Mobile Robots: A Second-Order Sliding-Mode Trajectory Tracking Control
Published in: IEEE Transactions on Industrial Electronics, 2024
Contributors: Héctor Ríos, Manuel Mera, Andrey Polyakov
DOI: 10.1109/TIE.2023.3270520

Conclusion

Fiona Wirrer-George Oochunyung’s research exemplifies innovative and culturally grounded methodologies, blending lived experience, creative expression, and academic rigor. Her work as a First Nations Cultural/Spiritual/Creative Methodologist uniquely positions her for the Best Researcher Award. With a balance of creative practice and scholarly output, Fiona’s research makes a significant contribution to the preservation and dissemination of Indigenous knowledge systems. With potential areas for increased collaboration and academic visibility, she remains a strong contender for recognition.

Mr Hassan NaseriGheisanab| Phased array antenna | Best Researcher Award

Mr Hassan NaseriGheisanab, Institut national de la recherche scientifique (INRS), Canada

Mr. Hassan Naseri Gheisanab is a dedicated researcher at the Institut national de la recherche scientifique (INRS), where he is actively involved in advancing scientific knowledge in his field. With a passion for research and a strong academic background, Mr. Gheisanab is committed to contributing to the scientific community through his work. His expertise and dedication make him a valuable asset to the research team at INRS, where he continues to make significant contributions to the field.

Professional Profiles:

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Education:

Mr. Hassan Naseri Gheisanab is a dedicated researcher currently pursuing a Doctor of Philosophy (Ph.D.) in Telecommunication at the University of Quebec, INRS–EMT, Canada, with a focus on “OAM-generating antennas for increasing the channel capacity of wireless systems.” Under the guidance of Prof. Tayeb A. Denidini, he is actively involved in advancing knowledge in this specialized field. Prior to his Ph.D., he completed a Master of Science in Electrical Engineering, specializing in Fields and Waves, at the University of Tabriz, Iran, where he achieved a commendable CGPA of 3.84/4.00. His master’s thesis, titled “Microwave passive components modeling and characterization,” showcases his expertise in this area. Mr. Gheisanab’s academic journey began with a Bachelor of Science in Electrical Engineering, with a focus on communication, also at the University of Tabriz, Iran. During his bachelor’s studies, he developed a keen interest in RC4 coding, gaining proficiency in MATLAB and C++. His academic achievements and research interests demonstrate his commitment to the field of telecommunications and electrical engineering.

Research Experience:

Mr. Hassan Naseri Gheisanab has gained extensive experience and expertise in electrical engineering and telecommunications through various roles. Currently serving as a Graduate Research Assistant at the Institut National de la Recherche Scientifique (INRS) in Canada, he is involved in groundbreaking research on reconfigurable OAM antennas for smart OAM communication systems. His responsibilities also include contributing to research grant proposals and co-supervising Master students. Previously, at the University of Tabriz in Iran, Mr. Gheisanab worked as an Antenna/RF Lab Engineer, where he advised on the design, fabrication, and measurement of microwave components and taught RF-simulator tools and measurement devices. He also played a crucial role in assisting students with their final year projects. Earlier in his career, he served as a Research Assistant at the same institution, focusing on microwave passive components modeling and phased array antennas and antenna feeds. These diverse experiences have honed his skills and expertise in both theoretical and practical aspects of electrical engineering and telecommunications, making him a valuable contributor to the field.

Membership, Awards and Achievements:

Mr. Hassan Naseri Gheisanab is an active member of the IEEE and has been part of the organization since 2021. He is also a member of the IEEE Antennas & Propagation Society (APS). Additionally, he serves as a member of the Telecommunications Program Self-Assessment Committee at Université du Québec, INRS-EMT, a position he has held since March 2023. Mr. Gheisanab is also a member of the Occupational Health and Safety Committee (OHSC) at the same university, a role he has undertaken since December 2022. His dedication to academia and research has been recognized through various awards and achievements. He received the Fonds de Recherche du Quebec Nature and Technologies (FRQNT) scholarship from Summer 2023 to 2027 and was granted a Student Travel Grant from the IEEE for the AP-S conference held in Denver, U.S. in July 2022. During his time at the University of Tabriz, Iran, he was a member of the Talent Organization from 2018 to 2020. Mr. Gheisanab’s academic excellence is evident from his ranking as 1st among all M.Sc. students of Field and Wave Engineering at the University of Tabriz, Iran, from 2017 to 2020. His commitment to academic and professional development reflects his dedication to advancing knowledge in the field of electrical engineering and telecommunications.

Research Interest:

Mr. Hassan Naseri Gheisanab possesses a wide range of skills and expertise in electrical engineering and telecommunications, particularly in RF circuit design, antenna technology, and wireless communication systems. His proficiency includes integrating and co-designing passive and tunable/reconfigurable RF circuit blocks like filters, amplifiers, mixers, and antennas for optimized system performance. He is adept at designing impedance matching circuits for RF systems and has a strong understanding of both active and passive microwave components, such as power dividers and couplers. Mr. Gheisanab’s knowledge extends to phased array antennas for beamforming applications and specialized antenna designs like Orbital Angular Momentum (OAM) antennas to enhance wireless system channel capacity. Additionally, he has expertise in Multiple-Input-Multiple-Output (MIMO) antenna design for high-data-rate communication and the development of active and passive transmitarray and reflectarrays. With his diverse skill set and in-depth knowledge, Mr. Gheisanab is well-equipped to tackle complex challenges in his field.

Publications Top Notes:

1. H. Naseri, P. Pourmohammadi, P. Fei, N. Melouki, A. Iqbal, and T. A. Denidni, ”Butler matrix-based beamforming with polarization reconfigurability for reducing electromagnetic interference.” AEU-International Journal of Electronics and Communications, vol. 170, pp. 154833, Oct. 2023.

2. P. Pourmohammadi, H. Naseri, N. Melouki, F. Ahmed, M. S. Bizan, A. Iqbal, and T. A. Denidni, ”A Fabry–Perot antenna using a frequency selective surface layer with wideband and Low RCS for Mm-wave applications.” AEU-International Journal of Electronics and Communications, vol. 169, pp. 154736, Sep. 2023.

3. P. Pourmohammadi, H. Naseri, N. Melouki, F. Ahmed, A. Iqbal, G. A. Vandenbosch and T. A. Denidni, ”Compact SIW-Based Self-Quadruplexing Antenna for Microwave and Mm-Wave Communications,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 70, no. 9, pp. 3368-3372, Sept. 2023.

4. H. Naseri, P. PourMohammadi, N. Melouki, F. Ahmed, A. Iqbal and T. A. Denidni, ”Substrate Integrated Waveguide-Based Dual-Polarized Self-Diplexing Antenna Array,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 70, no. 8, pp. 2839-2843, Aug. 2023.

5. M. S. Bizan, H. Naseri, P. Pourmohammadi, N. Melouki, A. Iqbal, and T. A. Denidni, “Dual-Band Dielectric Resonator Antenna with Filtering Features for Microwave and Mm-Wave Applications,” Micro Machines, vol. 14, no. 6, p. 1236, Jun. 2023.

Fiona Wirrer-George | Antenna engineering | Best Researcher Award

Dr. Fiona Wirrer-George | Antenna engineering | Best Researcher Award