Yordanis Alonso-Roque | Engineering | Best Paper Award

Best Paper Award

Broadband Two-Port Rectangular Patch Radiating Element Based on a Self-Complementary Structure

Yordanis Alonso-Roque
Affiliation Research Institute of Oceanic Engineering
Country Spain
Article Title Broadband Two-Port Rectangular Patch Radiating Element Based on a Self-Complementary Structure
Documents 11
Citations 1
Subject Area Engineering
Award Category Best Paper Award
Event International Research Excellence and Best Paper Awards
ORCID 0000-0002-0649-7455

The Best Paper Award recognizes the scholarly contribution of Yordanis Alonso-Roque from the Research Institute of Oceanic Engineering for the publication entitled Broadband Two-Port Rectangular Patch Radiating Element Based on a Self-Complementary Structure. The publication contributes to the advancement of engineering research by exploring broadband antenna design using self-complementary structures. Through innovative electromagnetic design principles and practical engineering methodologies, the study supports the development of efficient radiating elements suitable for modern wireless communication systems and related applications.

Abstract

This award-recognized publication presents research on a broadband two-port rectangular patch radiating element developed using a self-complementary structure. The study investigates antenna design strategies intended to achieve wide operational bandwidth while maintaining desirable radiation characteristics. The proposed approach contributes to antenna engineering by demonstrating design concepts that may enhance the performance of broadband wireless communication systems.

Keywords

Broadband Antenna; Patch Antenna; Self-Complementary Structure; Electromagnetic Engineering; Wireless Communications; Radiating Element; Microwave Engineering; RF Design.

Introduction

Broadband antennas play a critical role in modern wireless communication technologies, radar systems, and advanced sensing applications. Researchers continue to investigate innovative antenna geometries capable of improving bandwidth, radiation efficiency, and integration into compact communication platforms. Self-complementary antenna structures have attracted considerable interest because of their theoretical broadband characteristics and practical engineering advantages.

Research Profile

The research was conducted at the Research Institute of Oceanic Engineering, Spain. The institute supports multidisciplinary engineering research with emphasis on innovative technologies, applied electromagnetic systems, and advanced engineering solutions that contribute to scientific and industrial development.

Scientific Background

Recent advances in wireless communications require antenna systems capable of operating efficiently over increasingly wider frequency ranges. Broadband antenna architectures improve communication reliability while reducing system complexity. Self-complementary geometries provide an important theoretical framework for developing broadband radiating structures suitable for next-generation engineering applications.

Methodology

The publication investigates a broadband rectangular patch radiating element incorporating a self-complementary configuration. Electromagnetic analysis, antenna design principles, and engineering evaluation methods were employed to examine the broadband characteristics and operational performance of the proposed radiating structure.

Key Findings

The study demonstrates the feasibility of applying self-complementary design concepts to broadband rectangular patch radiating elements. The proposed design contributes to broadband antenna engineering by providing a practical approach for achieving improved operational bandwidth while maintaining effective radiation performance for engineering applications.

Scientific Contributions

This publication contributes to engineering research by advancing broadband antenna design methodologies. The proposed radiating element expands knowledge in electromagnetic engineering and supports continued innovation in wireless communication technologies, RF systems, and modern antenna development.

Conclusion

The award-winning publication represents a valuable contribution to antenna engineering by investigating a broadband two-port rectangular patch radiating element based on a self-complementary structure. The research supports ongoing advances in broadband communication technologies and demonstrates the importance of innovative electromagnetic design in modern engineering applications.

References

  1. ORCID. Yordanis Alonso-Roque
    . https://orcid.org/0000-0002-0649-7455
  2. International Research Excellence and Best Paper Awards.
    https://bestpaperawards.com/
  3. Hexagonal Patch Antenna of Circular Polarization fed by an Atractive Method of Microstripline.
    https://www.researchgate.net/publication/370109111_Hexagonal_Patch_Antenna_of_Circular_Polarization_fed_by_an_Atractive_Method_of_Microstripline

  4. Electromagnetic Analysis of a 2 Port-Aperture Coupled-Rectangular Patch Antenna with Complementary Rectangular Stub.
    https://www.researchgate.net/publication/370108553_Electromagnetic_Analysis_of_a_2_Port-Aperture_Coupled-Rectangular_Patch_Antenna_with_Complementary_Rectangular_Stub

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Akshatha P S | Engineering | Best Researcher Award

Assist. Prof. Dr. Akshatha P S | Engineering | Best Researcher Award

Senior Assistant Professor | New Horizon College of Engineering | India

Dr. Akshatha P. S is a Senior Assistant Professor in the Department of Artificial Intelligence and Machine Learning at New Horizon College of Engineering, Bengaluru, where she has established herself as a committed academician and an innovative researcher. She earned her Ph.D. in Computer Science and Engineering from Bangalore University in 2023, focusing her doctoral research on enhancing the security and reliability of MQTT protocols in IoT networks. With a strong educational foundation and passion for advancing technology, she has accumulated several years of professional experience in teaching, research, and academic coordination, mentoring students while contributing significantly to the growth of her institution. Her research interests span across Computer Networks, Internet of Things, Artificial Intelligence, secure communication systems, and blockchain integration, reflecting her dedication to solving real-world problems through emerging technologies. She possesses excellent research skills, demonstrated by her prolific output of over 49 publications in high-impact platforms including IEEE Q1 journals, Scopus-indexed conferences, and Springer book chapters, along with 12 patents filed in areas such as IoT, AI, and blockchain-based solutions. Beyond research and teaching, Dr. Akshatha has actively engaged in professional memberships with IEEE, ORCID, and Scopus, which highlight her academic presence, while her leadership in organizing workshops, delivering invited talks, and contributing to knowledge dissemination reflects her broader academic and societal impact. Recognized for her contributions, she has been honored with accolades in research and innovation, further strengthening her professional reputation. In conclusion, Dr. Akshatha P. S embodies the qualities of a forward-looking researcher and dedicated educator whose work bridges academia and industry, and with her growing global presence, research vision, and commitment to student development, she continues to emerge as an inspiring figure and a deserving candidate for prestigious recognitions and awards.

Profile: Scopus | ORCID

Featured Publications

  1. Akshatha, P. S., & Dilip Kumar, S. M. (2023). Analysis and evaluation of MQTT brokers for e-Healthcare applications. IEEE Transactions on Industrial Informatics.

  2. Akshatha, P. S., & Dilip Kumar, S. M. (2023). Context-aware enhancement of buffer utilization in MQTT-based IoT communication. International Journal of Communication Networks and Distributed Systems. (In press).

  3. Akshatha, P. S., Divyashree, S., & Dilip Kumar, S. M. (2023). Priority-enabled MQTT: A robust approach to emergency event messaging. Journal of Engineering and Applied Science, Springer. (In press).

  4. Akshatha, P. S., & Dilip Kumar, S. M. (2023). MQTT and blockchain sharding: An approach to user-controlled data access with improved security and efficiency. Blockchain: Research and Applications, Elsevier. (In press).

  5. Akshatha, P. S., Dilip Kumar, S. M., & Venugopal, K. R. (2022). MQTT implementations, open issues, and challenges: A detailed comparison and survey. International Journal of Sensors, Wireless Communications and Control, 12(8), 553–576.