R Rajesh

Work place: Centre for Airborne Systems, Defence Research and Development Organization (DRDO), Belur, Yemlur Post, Bangalore, India-560037.

E-mail: rajesh81r@gmail.com

Website:

Research Interests: Computational Science and Engineering, Computer systems and computational processes, Systems Architecture, Information Systems, Information Storage Systems

Biography

R Rajesh received his B-Tech in ECE from National Institute of Technology, Calicut, India
in 2002 and PhD from Electrical Communication Engineering department, Indian Institute of
Science, Bangalore, India in 2009. Since December 2002, he is working as a Scientist with
Centre for Airborne Systems, DRDO, Bangalore. His areas of interest include Information
Theory, Wireless Communication, Radar Systems and System Engineering. He is a recipient
of Laboratory Scientist of the year award in 2006, DRDO Young Scientist award in 2008 and
Technology group award in 2013.

Author Articles
Integrated Guard Channel Synthesis in AESA based Airborne Surveillance Radar

By R Rajesh P V Rao Suma Varughese

DOI: https://doi.org/10.5815/ijwmt.2016.06.01, Pub. Date: 8 Nov. 2016

The guard channel is very effective in eliminating side-lobe returns, both targets and discrete clutter, in airborne radar's. The ideal design criterion for the guard channel is that all the side lobes of the main antenna are covered by the guard pattern. In this paper a novel design approach of generating the guard using the elements of the main Active Electronically Scanned Array (AESA) antenna, thereby eliminating the need for a separate antenna, is presented. The ground clutter has an angle dependent Doppler and clutter discrete that leak in through the side lobes, especially the inter-cardinal elevation side lobes looking at the near range, needs to be eliminated. Towards this the design of the weighting coefficients for the guard to cover all the side lobes of the main array is discussed. Furthermore a digital threshold scheme is proposed to improve the effectiveness of guard channel in eliminating side-lobe returns. The detection loss and blanking probability are characterized for the design. The measurement results confirm that the design objectives are met.

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