Authors: N. P. Waweru, D. B. O. Konditi, P. K. Langat

Abstract:

Direction of Arrival estimation refers to defining a mathematical function called a pseudospectrum that gives an indication of the angle a signal is impinging on the antenna array. This estimation is an efficient method of improving the quality of service in a communication system by focusing the reception and transmission only in the estimated direction thereby increasing fidelity with a provision to suppress interferers. This improvement is largely dependent on the performance of the algorithm employed in the estimation. Many DOA algorithms exists amongst which are MUSIC, Root-MUSIC and ESPRIT. In this paper, performance of these three algorithms is analyzed in terms of complexity, accuracy as assessed and characterized by the CRLB and memory requirements in various environments and array sizes. It is found that the three algorithms are high resolution and dependent on the operating environment and the array size. 

Keywords: Direction of Arrival, Autocorrelation matrix, Eigenvalue decomposition, MUSIC, ESPRIT, CRLB.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1091734

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 8632

References:

[1] S. Kamboj and R. Dahiya, "Adaptive antenna array for satellite communication systems,” Proceedings of the International Multiconference of Engineers and Computer Scientists, vol. 2, March 2008,Hong Kong.
[2] A. Iozsa and A. Vesa, "Direction of arrival estimation for uniform sensor arrays,” International Symposium on Electronics and Telecommunication(ISETC), no. 978-1-4244-8460-7/10, 2010.
[3] A. Iozsa and A. Vesa, "The esprit algorithm. variants and precision,” International Symposium on Electronics and Telecommunication(ISETC), no. 978-1-4244-8460-7/10, 2010.
[4] A. A. Noori, S K. Gharghan, and A. A. Wahab, "Study of signal estimation parameters via rotational invariance technique by using ants colony optimization algorithm,” Eng. & Tech. Journal, vol. 29, no. 4, pp. 736–749, 2011.
[5] M. Barkar, R. M. Vani, and P. V. Hunagund, "Eigen structures based direction of arrival estimation algorithms for smart antennas systems,” in IJCSNS International Journal of Computer Science and Network Security, vol. 9, pp. 96–100, Nov 2009.
[6] Engin Tuncer and Benjamin Friedlander, Classical and Modern Direction-of-Arrival Estimation, ch. 1, pp. 10–13. Elsevier Inc., 2009.
[7] Y. Wu, H. Liu, and H. C. So, "Fast and accurate direction-of-arrival estimation for a single source,” Progress In Electromagnetics Research C, vol. 6, pp. 13–20, 2009.
[8] A. Vesa, "Direction of arrival estimation using music and root-music algorithm,” in 18th Telecommunication forum TELFOR, November 2010.
[9] X. Gu and Y. H. Zhang, "Resolution threshold analysis of music algorithm in radar range imaging,” Progress In Electromagnetics Research B, vol. 31, pp. 297–321, 2011.
[10] Z. Aliyazicioglu, H. K. Hwang, M. Grice, and A.Yakovlev, "Sensitivity analysis for direction of arrival estimation using a root-music algorithm,” Engineering Letters, vol. 13, pp. 353–360, 2008.
[11] C. R. Dongarsane, A. N. Jadhav, and S. M. Hirikude, "Performance analysis of esprit algorithm for smart antenna system,” International Journal of Communication Networks and Security, vol. 1, pp. 34–37, 2012.