Miss. Shibani Tripathy: PhD Scholar at Veer Surendra Sai University of Technology, Burla,Odisha, India

Er. Shibani Tripathy is an experienced researcher and academic professional specializing in Electronics and Telecommunication Engineering. With a strong focus on antenna design, RF/microwave engineering, and wireless communication systems, she has contributed significantly to advancing 5G and next-generation communication technologies. She has over six years of leadership experience as Head of Department and is currently pursuing a Ph.D. at Veer Surendra Sai University of Technology, Burla. Her work blends theoretical research with practical simulations and real-world applications.

Online Profiles

Scopus Profile

Shibani actively maintains a presence on professional and academic platforms such as Google Scholar, ResearchGate, and LinkedIn, where she disseminates her research findings and connects with fellow researchers and industry experts. These profiles showcase her publications, ongoing projects, and conference participations. She also leverages these platforms to stay updated on the latest developments in telecommunications and to explore potential collaborations globally.

Education

She completed her Master of Technology in Electronics Information Systems from Majhighariani Institute of Technology & Science, Rayagada, achieving a 75% score in the first division. Earlier, she earned a Bachelor of Technology in Electronics & Telecommunication Engineering from Purushottam Institute of Technology, Mandiakudar, with a 70% score. Additionally, she holds a Diploma in Electronics & Telecommunication from Sushree Institute of Technical Education. Presently, she is a Ph.D. candidate specializing in RF and Microwave engineering, focusing on innovative antenna designs.

Research Focus

Shibani’s research is centered around the design, simulation, and performance evaluation of compact and efficient antenna systems, especially for MIMO technology applied to 5G and beyond wireless communication. She specializes in using advanced electromagnetic simulation tools such as Ansys HFSS, CST Microwave Studio, and ADS to develop novel antenna geometries including perturbed pentagon patches and pillar patch antennas that operate in sub-6GHz to Ku-band frequencies. Her work aims to improve antenna gain, bandwidth, and system integration.

Experience

With over six years of academic and administrative experience as Head of the Electronics & Telecommunication Engineering Department at S.I.T.E., Bolangir, Shibani has demonstrated excellence in academic leadership, curriculum design, and research supervision. She has mentored numerous students on technical projects and guided research that has resulted in multiple peer-reviewed publications. She also played a key role in organizing workshops and FDPs, promoting a research-oriented culture within the institution.

Research Timeline & Activities

Beginning with her M.Tech thesis on digital down converters for GSM systems in 2013, Shibani has progressively expanded her research scope to antenna design and wireless communications. She has presented her work at several international conferences, including IEEE AESPC and ICVMWT, contributing to the global knowledge base on MIMO antenna systems. Since starting her Ph.D. in 2023, she has been deeply involved in cutting-edge research activities, including simulation studies, hardware prototyping, and publication writing.

Awards & Honors

Throughout her academic career, Shibani has earned several accolades for her scholastic achievements and research contributions. She has been invited to present at prestigious conferences sponsored by IEEE and has participated in national-level faculty development programs funded by AICTE and MeitY, Government of India. These honors recognize her dedication to advancing the field of telecommunications and her continuous pursuit of academic excellence.

Top Noted Publication

Her most impactful publication to date is “Performance Characterization of Compact Pentagon-Based 4×4 and 8×8 MIMO Antennas,” published in the reputed journal Analog Integrated Circuits and Signal Processing in 2025. This paper presents novel antenna designs that significantly enhance system performance in terms of gain and isolation, contributing valuable insights to the research community focused on next-generation wireless communication systems.

“X-Sphere Pillar Patch Antenna for X-/Ku-Band Operation” is a recent conference paper authored by Er. Shibani Tripathy and colleagues, presented at the IEEE 2nd International Conference on Signal Processing, Communication, Power, and Embedded Systems in 2024. This work introduces a novel antenna design optimized for high-frequency X and Ku bands, which are critical for satellite and radar communications. Although the full text is currently not publicly accessible, the research contributes to advancements in compact, high-performance antennas for next-generation wireless applications.

Strengths for the Best Innovator Award

1. Pioneering Research in Advanced Antenna Designs
   Shibani Tripathy has developed novel antenna geometries such as perturbed pentagon patch and X-Sphere pillar patch antennas, which address critical challenges in the evolving wireless communication landscape. Her innovative designs improve antenna gain, bandwidth, and compactness, directly impacting the efficiency of 5G and next-generation communication systems.

2. Integration of Theoretical and Practical Expertise
   She combines deep theoretical knowledge with hands-on simulation and prototyping skills using cutting-edge tools like Ansys HFSS, CST, and ADS. This integration ensures her innovations are not only academically robust but also ready for real-world applications, bridging the gap between research and industry.

3. Leadership and Mentorship in Academic and Research Environments
   As Head of the Electronics & Telecommunication Department for over six years, Shibani has demonstrated exceptional leadership by guiding numerous students and colleagues through innovative projects and research activities. Her ability to inspire and nurture young talent fosters a vibrant culture of innovation and continuous learning.

4. Consistent Contribution to High-Impact Research
   Her research outputs have been recognized in top-tier journals and international conferences such as IEEE AESPC and ICVMWT. The notable publication on MIMO antennas in Analog Integrated Circuits and Signal Processing showcases her contribution to improving wireless communication performance, underlining her role as a thought leader in the field.

5. Active Engagement with Professional Development and Knowledge Dissemination
   Shibani actively participates in national and international workshops, faculty development programs, and webinars sponsored by leading institutions and government bodies. This continuous engagement highlights her commitment to staying at the forefront of innovation and sharing knowledge with the wider scientific community.