Susamay Samanta

Antenna Specialist | PhD in Radio Physics & Electronics | 9+ Years in Academia, Industry, and Research

About

Dr. Susamay Samanta is a PhD from the Institute of Radio Physics & Electronics, University of Calcutta. He specializes in the design, simulation, fabrication, and system integration of high-resolution radar antennas. His technical expertise includes the simulation of large antenna arrays and parabolic reflectors, precision fabrication, RF measurement, and automated antenna characteristics measurements. With over 9 years of experience across industry, academia, and R&D, he is also proficient in project management and works closely with cross-functional teams to drive advancements in radar technology and solve complex, real-world challenges. Susamay is dedicated to developing cutting-edge radar solutions for defense and space industries. Susamay has authored papers in top-tier SCIE journals, including IEEE Transactions on Antennas and Propagation (TAP) and IEEE Antennas and Wireless Propagation Letters (AWPL). He is a professional member of the IEEE Antennas & Propagation Society (APS) and the European Microwave Association (EuMA). He has served as a Manuscript Reviewer for several peer-reviewed SCI Indexed International journals and conferences. He also volunteered as an Associate Editor for the ECTI EEC Journal, Thailand. In recognition of his contributions, Susamay was honored as the "Best Reviewer of the Year 2018" by the Board of Radioengineering Society, Dept. of Radio Electronics, Brno University of Technology, Czech Republic. He was also a co-recipient of the IEEE TENCON 2017 Best Paper Award in the 'Antenna' track.

Research Area

5G & 6G Antennas | Low Earth Orbit Satellite Antennas | IoT, RFID & Wearable Antennas | C-V2X  Vehicular Antennas | Biomedical Antennas

Recent Publications

Journal- IEEE AWPL

This letter proposes a strategic mechanism to reduce cross-polarization in triangular microstrip antennas. Developed from characteristic mode analysis, it identifies the orthogonal degenerate mode TM01 as the cross-polarized counterpart of the dominant mode TM10 and uses a pair of partially shorting pins to suppress it effectively. Unlike conventional methods, it is minimally invasive to the antenna cavity, causing... Read More

Book Chapter- Springer

A miniaturized monopole antenna is presented in this paper for wearable biomedical applications. The proposed monopole antenna consists of a modified diamond shape patch with coplanar waveguide (CPW) feed designed on a low cost, easily available, and flexible acrylic sheet of thickness 0.3 mm. Four rectangular slits are loaded... Read More

Journal- AEÜ  

This paper proposes a new quantitative parameter on identifying the primary factor for appropriate geometry selection of microstrip patch antennas dedicated to low cross-polarization (XP) applications. The significance of point-symmetric (PS) and non-point-symmetric (NPS) geometries has been analyzed on the basis of... Read More

Conference- URSI

A left hand circularly polarized (LHCP) circular microstrip patch antenna (CMSA), operating at 5.8 GHz dedicated short range communication (DSRC) band using metallic posts (MPs) is explored in this paper for road transport and traffic telematics (RTTT) application. Optimal tuning of the distance between each pair of MPs a 176° wide... Read More

Recent Events

Technical Program Committee Member

ICPEI 2022 

October 19-21, 2022

The 2022 International Conference on Power, Energy and Innovations, Pattaya, Thailand

Speaker

Let's Get Trendy: Antenna Research Ideas for 2022 

December 21, 2021

Young Scientist Conclave Organized by IEEE AP/MTTs Kolkata Chapter, India

Publicity Chair

IEEE AMPHE 2020

September 25-26, 2020

International Conference Organized by Adamas University, Kolkata, India