On the Optimal Synthesis of Ring Symmetric Shaped Patterns by Means of Uniformly Spaced Planar Arrays

Morabito, Andrea Francesco; Laganà, Antonia Rita; Isernia, and Tommaso

doi:10.2528/pierb10011206

Cited by 32 publications

(21 citation statements)

References 12 publications

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“…In fact, proper results have been obtained for the case of GEO satellite systems using a radial geometry [10]. In this case, the results revealed a better performance of the isoflux radiation than the results presented in [8,9].…”

Section: Introductionmentioning

confidence: 72%

“…Recently, relevant contributions have been proposed in the literature. Those works use some deterministic approaches for synthesizing uniform and sparse planar antenna arrays in order to obtain a desirable isoflux radiation in MEO (Medium Earth Orbit) and GEO satellites [8,9]. Thus, the aurhors' objective has been focused on synthesizing antenna arrays to satisfy isoflux radiation in a compact size with fewer device excitations in order to improve the performance of the antenna system.…”

Section: Introductionmentioning

confidence: 99%

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On the Design of Concentric Ring Arrays for Isoflux Radiation in Meo Satellites Based on Pso

Reyna¹,

Panduro²,

Rio-Bocio³

2011

PIER M

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Abstract-The design of concentric ring arrays for isoflux radiation is presented in this paper. This design considers the reduction of the side lobe level and isoflux radiation requirements for Medium Earth Orbit (MEO) satellites. The optimization problem considers the spacing among rings and levels of amplitude excitations. The well-known method of Particle Swarm Optimization (PSO) is utilized for this design case. The obtained results could cause the satellite hardware to be reduced significantly even more than that presented previously in the literature.

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Section: Introductionmentioning

confidence: 72%

Section: Introductionmentioning

confidence: 99%

On the Design of Concentric Ring Arrays for Isoflux Radiation in Meo Satellites Based on Pso

Reyna¹,

Panduro²,

Rio-Bocio³

2011

PIER M

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“…Finally, it is interesting to note that, by exploiting the procedures presented in [22,23], the approach can be extended to the case of planar arrays generating circularly symmetric patterns.…”

Section: Discussionmentioning

confidence: 99%

“…As a consequence of convexity, the globally optimal solution of the problem is unique and can be identified without making resort to global optimization techniques. Also, by using suitable finite-dimensional expansions of the source or proper regularization techniques, these results and approaches can be extended to the synthesis of continuous aperture sources [21][22][23]. Finally, the density taper techniques [10,16] can be applied to each achieved aperture field distribution in order to generate a set of array locations corresponding to the desired radiation pattern and identifiable as a point in a multidimensional space whose coordinates are the locations themselves (see Fig.…”

Section: A New Perspective In the Synthesis Of Reconfigurable Isophormentioning

confidence: 99%

Optimal Synthesis of Phase-Only Reconfigurable Linear Sparse Arrays Having Uniform-Amplitude Excitations

Morabito

Isernia²,

Donato³

2012

PIER

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Abstract-In a large number of applications, including communications from satellites, an optimal exploitation of the available power is of the outmost importance. As a consequence, isophoric array architectures, i.e., arrays using the same power in all the different entry points and achieving the amplifiers' maximum efficiency, are of great interest. At the same time, the easy reconfigurability of the power patterns results fundamental in order to get a full exploitation of the payload. In this paper, an innovative and deterministic approach is proposed for the optimal synthesis of linear phase-only reconfigurable isophoric sparse arrays able to commute their pattern amongst an arbitrary number of radiation modalities. The introduced perspective leads to an effective solution procedure for the fast design of antennas with high performance, and does not recur to computationally expensive global-optimization techniques. Numerical results concerning applications of actual interest and employing realistic element patterns are provided in support of the given theory.

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“…Finally, all these results concerning the synthesis of shaped beams can be extended to all cases wherein the source can be reduced to one-dimensional polynomials, which include planar arrays with factorable patterns, planar arrays with peculiar symmetries [14], as well as circularly symmetric sources [15], [16].…”

Section: The Starting Bricksmentioning

confidence: 99%

A new perspective in the synthesis of reconfigurable linear or circularly symmetric array antennas

Morabito

Laganà

Isernia

2012

2012 6th European Conference on Antennas and Propagation (EUCAP)

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An innovative and general point of view is presented to the optimal, mask-constrained power pattern synthesis of array antennas able to dynamically reconfigure their radiation behaviour by just modifying the phase of excitations or other suitable parameters. The perspective leads to an effective design approach able to deal in an effective fashion with easily-reconfigurable arrays, including phase-only reconfigurable isophoric linear sparse arrays, arrays lying on a regular lattice, and circularly symmetric arrays. By taking advantage from basic results achieved in the optimal synthesis of pencil beams and shaped beams, the approach guarantees the achievement of high performance without recurring to global optimization schemes.

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On the Optimal Synthesis of Ring Symmetric Shaped Patterns by Means of Uniformly Spaced Planar Arrays

Cited by 32 publications

References 12 publications

On the Design of Concentric Ring Arrays for Isoflux Radiation in Meo Satellites Based on Pso

On the Design of Concentric Ring Arrays for Isoflux Radiation in Meo Satellites Based on Pso

Optimal Synthesis of Phase-Only Reconfigurable Linear Sparse Arrays Having Uniform-Amplitude Excitations

A new perspective in the synthesis of reconfigurable linear or circularly symmetric array antennas

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