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Reduction of Side Lobe Level in Smart Antennas by using Non-Uniform Circular Arrays by Comparing FFA with RLS

Suraya Mubeen*, A. Jhansi Rani**, A.M. Prasad***

* Associate Professor, Department of Electronics and Communication Engineering, CMRTC, Hyderabad, India.

** Professor, Department of Electronics and Communication Engineering, VRSEC, Vijayawada, India.

*** Professor, Department of Electronics and Communication Engineering, JNTU, Kakinada, India.

Periodicity:October - December'2016
DOI : https://doi.org/10.26634/jwcn.5.3.10346

Abstract

Numerous studies of smart antennas have already been conducted using linear or planar arrays, not as much effort has been devoted to other configurations. The performance of smart antennas with circular array and circular array with central element are examined and simulated in MATLAB. In this paper, the first module presents the design of circular antenna array with central element suitable for the beam forming technique in wireless applications such as smart antennas have been analysed. The main objective of the work is to compute the radiation pattern with minimum Side Lobe Level (SLL) for specified Half Power Beam Width (HPBW). Algorithms are applied to determine the non-uniform excitation applied to each element. The effectiveness of the proposed algorithm involves FFA for optimization of antenna problems. Simulation results obtained in each case using both the algorithms such as RLS and FFA are compared in a statistically significant way. The obtained results using Firefly Algorithm shows better performance than RLS provided that the same number of function evaluations have been considered for both the algorithms.

Keywords

Circular Arrays, First Null Beam Width, Side Lobe Level, FFA, RLS

How to Cite this Article?

Mubeen, S., Rani, A.J., and Prasad, A.M. (2016). Reduction of Side Lobe Level in Smart Antennas by using Non-Uniform Circular Arrays by Comparing FFA with RLS. i-manager's Journal on Wireless Communication Networks, 5(3), 21-25. https://doi.org/10.26634/jwcn.5.3.10346

References

[1]. R.C. Hansen, (1960). “Tables of Taylor Distributions for Circular Aperture Antennas”. IRE Transactions on Antennas and Propagation, Vol.8, No. 1, pp.23-26.

[2]. G. Ziehm, (1964). “Optimum Directional Pattern Synthesis of Circular Arrays”. Journal of Radio and Electronic Engineers, Vol.28, No.5, pp.341-355.

[3]. J. Ruze, (1964). “Circular Aperture Synthesis”. IEEE Transactions on Antennas and Propagation, Vol. AP-12, No. 6, pp.691-694.

[4]. R.C. Hansen, (1975). “Circular Aperture Distribution with One Parameter”. IEEE Electronic Letters, Vol.11, No.8, pp.184.

[5]. R.S. Elliot, (1975). “Design of Circular Apertures for Narrow Beam Width and a Symmetric Low Sidelobes”. IEEE Transactions on Antennas and Propagation, Vol.23, No. 4, pp.523-527.

[6]. F. Watenabe, (1980). “A Pattern Synthesis of Circular Arrays by Phase Adjustments”. IEEE Transactions on Antennas and Propagation, Vol.28, No.6, pp.857-863.

[7]. R. Vescovo, (1993). “Array Factor Synthesis for Circular Antenna Arrays”. International Symposium on Antennas and Propagation, pp.1574-1577.

[8]. Y. Li, (2004). “Beam Pattern Synthesis for Concentric Circular Ring Array using MMSE Design”. IEEE International Symposium on Circuits and Systems.

[9]. R.L. Haupt, (2008). “Thinned concentric ring arrays”. IEEE Antennas and Propagation International Symposium, pp.1-4.

[10]. D. Mandal, (2009). “A Novel Particle Swarm Optimization based Optimal Design of Three-Ring Concentric Circular Antenna Arrays”. International Conference on Advances in Computing, Control, & Telecommunication Technologies, pp.385-389.

Reduction of Side Lobe Level in Smart Antennas by using Non-Uniform Circular Arrays by Comparing FFA with RLS

Abstract

Keywords

How to Cite this Article?

References

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