Evaluating the stealth performace of complex targets in general and the transient and dynamic RCS of chaff payloads in particular is the first reserch objective of my group. For chaff, this leads to improved chaff design and indigenouisation of the production thereby. Also, development for broadband radar absorbing material for airborne and naval applications is attempted by the group.
Perfecting the GPR as a tool for various mining, civilian, agricultural, structural, security as well as other civilian application is the second research objective of my group. This includes improved antenna design, improved pulse generator design, improvement of calibration methodology, improved system modeling, improved detection strategy for hybrid structures made of conductor and dielectrics etc.
Perfecting the high power microwave technology is the third research objective of my group. This includes improvement in sensor design, improvement in antenna feed design, improvement in canonical target identification strategy detection strategy etc.
In cellular telephony and also in many other areas where frequency allocation is done, presently statistical or empirical models are followed. This is the reason for high drop rate. To solve the problem, development of deterministic and ray based models is the fourth research area of my group.
For predicting atmospheric losses during satellite communication, some propagation models are used which are not developed from the experience of Indian tropical region. One such model development is the fifth research goal of our group.
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Application of the mixture of lognormal distribution to represent the first order statistics of wireless channels Das S., Bhattacharya A. By IEEE Systems Journal 14 4394-4401 (2020)
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A simple method for measuring the dielectric constant of solids A. Bhattacharya, S. Gupta, K.S.R.Rao and A. Chakraborty By IEEE Transactions on Instrumentation and Measurement Vol. 49, No. 1 - (2000)
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Digital Communication A. Bhattacharya By Electrical & Electronics Engineering Series, - (2005)
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Analytical explanation of Electromagnetic diffraction from double layered dielectric wedge Majumdar S., Bhattacharya A. By IEEE Access 48732-48741 (2021)
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A Novel Compact Superwideband Bowtie Antenna for 420 MHz to 5.5 GHz Operation K. A. K., Bhattacharya A. By IEEE Transactions on Antennas & Propagation 66 3830-3836 (2018)
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A modified plane wave model for fast and accurate characterisation of layered media Maity S., Patra S. K., Bhattacharya A. By IEEE Transactions on Microwave Theory and Techniques 65 3492-3502 (2017)
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Shape Reconstruction of Mixed Boundary Objects by Linear Sampling Method E. Mallikarjun and A. Bhattacharya By IEEE Trans. on Antenna Propagation Vol. 63, No. 7 3077-3086 (2015)
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A Hybrid E-pulse Method for Discrimination of Conducting Scatterers in Resonance Region D. Singh, N. Mohan, D. C. Pande and A. Bhattacharya By IEEE Transactions on Antennas & Propagation Vol. 62, No. 8 4421-4425 (2014)
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Low-Ringing and Reduced-Cost Step Recovery Diode Based UWB Pulse Generators for GPR Applications A. Kamal, A. Bhattacharya, M. Tamrakar and C. Roy By Microwave and Optical Technology Letters Vol. 56, No. 10 2289-2294 (2014)
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An Analytical Characterization of Transmission through a Building for Deterministic Propagation Modeling Sanjay Soni and A. Bhattacharya By , Microwave and Optical Technology Letter Vol. 53, No. 8 1875-1879 (2011)
- Co-Principal Investigator
Ph. D. Students
Ananya Dey
Area of Research: Engineered Electromagnetic Material
Elango S
Area of Research: Time Domain Electromagnetics
Neha Singh
Area of Research: Radar Signal Processing
Sathe Prajakta Dasharath
Area of Research: Radar Target Identification
Warhekar Pooja Prakash
Area of Research: Radar Absorbing Material
