Abstract
This article deals with the application of differential geometry to the array manifolds of non-uniform linear antenna array (NULA) when estimating the direction of arrival (DOA) of multiple sources present in an environment using far field approximation. In order to resolve this issue, we utilized a doublet linear antenna array (DLA) comprising two individual NULAs, along with a proposed algorithm that chooses correct directions of the impinging sources with the help of the prior knowledge of the ambiguous directions calculated with the application of differential geometry to the manifold curves of each NULA. The algorithm checks the correlation of the estimated direction of arrival (DOAs) by both the individual NULA with its corresponding ambiguous set of directions and chooses the output of the NULA, which has a minimum correlation between their estimated DOAs and corresponding ambiguous DOAs. DLA is designed such that the intersection of all the ambiguous set of DOAs among the individual NULAs are null sets. DOA of sources, which imping signals from different directions on the DLA, are estimated using three direction finding (DF) techniques, such as, genetic algorithm (GA), pattern search (PS), and a hybrid technique that utilizes both GA and PS at the same time. As compared to the existing techniques of ambiguity resolution, the proposed algorithm improves the estimation accuracy. Simulation results for all the three DF techniques utilizing the DLA along with the proposed algorithm are presented using MATLAB. As compared to the genetic algorithm and pattern search, the intelligent hybrid technique, such that, GA–PS, had better estimation accuracy in choosing corrected DOAs, despite the fact that the impinging DOAs were from ambiguous directions.
Highlights
Smart antennas or antenna arrays are one of the interesting areas in the field of wireless communication and electromagnetics
The doublet linear antenna array (DLA) consists of two Motivated by the aforementioned objectives, we proposed an algorithm for resolution of ambiguities based on hybrid heuristic computing, which hybridized heuristic techniques such as genetic algorithm (GA) with pattern search (PS)
It can be seen that hybridized GA–PS when compared to GA and PS attained better direction of arrival (DOA)
Summary
Smart antennas or antenna arrays are one of the interesting areas in the field of wireless communication and electromagnetics. DOA estimation of multiple sources that imping signals on array’s elements could be effectively achieved using smart antennas, having many applications in the field of wireless communication systems, radar systems, sonar systems, and acoustics [6,7,8,9]. Performance of all the high-resolution direction-finding (DF) techniques [10,11,12,13] degrades and generates an ambiguous error when estimating the DOA of different sources if the separation between antenna array elements exceeds more than half the carrier wavelength [14]. There is a tradeoff that exists between resolution and directional ambiguities in linear antenna arrays, such that, NULA with same aperture as ULA and having a smaller number of array elements has better resolution capabilities but suffers from the problem of directional ambiguities. The remaining paper is organized as follows: Section 2 describes the literature review and motivation behind the work presented; Section 3 presents data model for the proposed doublet antenna array; Section 4 describes proposed methodologies, including three direction-finding techniques for resolving directional ambiguities; Section 5 shows simulation results for three different scenarios considering three, four, and five sources; Section 6 presents performance comparison; and Section 7 concludes the article
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