Journal of Electronics and Communication Systems

In this research paper an unsymmetrical metamaterial structure is used to modify the rectangular patch antenna at 2.59Ghz or in S band Patch antenna alone is not applicable for any wireless communication because the gain,bandwidth and efficiency are not upto the mark so when metamaterial was implemented with patch the salient features of patch get increased and provide better efficiency.

Jun-Won Kim, Tae-Hwan Jung, Hong-Kyun Ryu, Jong-Myung Woo, "Compact Multiband Microstrip Antenna Using Inverted L and T-Shaped Parasitic Elements." IEEE Antennas and Wireless Propagation Letters, vol. 12, 2013, pp. 1299-1302.

Bimal Garg, Dauood Saleem,“A highly efficient & directive rectangular microstrip patch transceiver using circular SRR based metamaterial structure for microwave and wireless communication applications,” has been published for the publication “Innovative Trends in Information Technologies and Computing Sciencesfor Competitive world order” JNU, New Delhi, February 2013

Bimal Garg, Ankit Samadhiya, Rahul Dev Verma, “Design of Double-F Metamaterial Structure for Enhancing Bandwidth of Patch Antenna With Negative µ And ε”. International Conference on Communication Systems and Network Technologies (CSNT-2012), Rajkot (Gujarat), 11-13 May 2012

Bimal Garg, Rahul Tiwari, Ashish Kumar and Tilak Chitransh, “Design of factored ‘X’ shaped metamaterial structure for enhancement of patch antenna gain”, International Conference on Communication Systems and Network Technologies 2011.

Bimal Garg, Dauood Saleem,“Analysis and design of innovative double H metamaterial structure for amelioration in patch antenna parameters,” STM journals, Volume 2, Issue3, December2012.

Bimal Garg, Vijay Sharma, Nitin Agrawal, “Enhancement of Gain and Directivity of Rectangular Resonant Microstrip Patch Antenna Loaded with “SYMMETRIC W” shaped Double Negative Left-Handed inspired metamaterial”, National Conference on Recent Advances in Microwave Engineering, 2011.

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