A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design

A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design

Reducing system complexity and cost in synthesizing a sparse array antenna design is a challenging task for practical communication systems, such as radar systems and space communication. In this paper, a hybrid technique to synthesize a linear sparse array antenna design is described. This techniq...

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Bibliographic Details
Main Authors: E. Sandi, F. Y. Zulkifli, E. T. Rahardjo
Format: Article
Language:English
Published: Advanced Electromagnetics 2016-12-01
Series:Advanced Electromagnetics
Subjects:
Sparse array configuration
Combinatorial CDS
Amplitude Tapering
Binomial Array
Hybrid Technique
SLL
Online Access:https://aemjournal.org/index.php/AEM/article/view/432
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spelling doaj-4581be67fde94c828a2575467d68446e2020-11-24T21:59:45ZengAdvanced ElectromagneticsAdvanced Electromagnetics2119-02752016-12-015310.7716/aem.v5i3.432432A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna DesignE. Sandi0F. Y. ZulkifliE. T. RahardjoUniversitas Indonesia Reducing system complexity and cost in synthesizing a sparse array antenna design is a challenging task for practical communication systems, such as radar systems and space communication. In this paper, a hybrid technique to synthesize a linear sparse array antenna design is described. This technique is developed using two methods. The first method is a combinatorial approach that applies cyclic difference sets (CDS) integers to significantly reduce the number of antenna elements. The approach and procedure used to apply the new CDS method to configure a linear sparse array, with significant reduction of the spatial antenna dimension, is described. The second method, applied to the array result of the first method, is amplitude tapering using a binomial array approach to reduce the sidelobes level (SLL). The simulation and measurement results of the sample sparse array design showed that the SLL was reduced in comparison to the sparse array design using only the combinatorial CDS method. https://aemjournal.org/index.php/AEM/article/view/432Sparse array configurationCombinatorial CDSAmplitude TaperingBinomial ArrayHybrid TechniqueSLL
collection DOAJ
language English
format Article
sources DOAJ
author E. Sandi
F. Y. Zulkifli
E. T. Rahardjo
spellingShingle E. Sandi
F. Y. Zulkifli
E. T. Rahardjo
A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design
Advanced Electromagnetics
Sparse array configuration
Combinatorial CDS
Amplitude Tapering
Binomial Array
Hybrid Technique
SLL
author_facet E. Sandi
F. Y. Zulkifli
E. T. Rahardjo
author_sort E. Sandi
title A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design
title_short A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design
title_full A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design
title_fullStr A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design
title_full_unstemmed A Hybrid Technique Using Combinatorial Cyclic Difference Sets and Binomial Amplitude Tapering for Linear Sparse Array Antenna Design
title_sort hybrid technique using combinatorial cyclic difference sets and binomial amplitude tapering for linear sparse array antenna design
publisher Advanced Electromagnetics
series Advanced Electromagnetics
issn 2119-0275
publishDate 2016-12-01
description Reducing system complexity and cost in synthesizing a sparse array antenna design is a challenging task for practical communication systems, such as radar systems and space communication. In this paper, a hybrid technique to synthesize a linear sparse array antenna design is described. This technique is developed using two methods. The first method is a combinatorial approach that applies cyclic difference sets (CDS) integers to significantly reduce the number of antenna elements. The approach and procedure used to apply the new CDS method to configure a linear sparse array, with significant reduction of the spatial antenna dimension, is described. The second method, applied to the array result of the first method, is amplitude tapering using a binomial array approach to reduce the sidelobes level (SLL). The simulation and measurement results of the sample sparse array design showed that the SLL was reduced in comparison to the sparse array design using only the combinatorial CDS method.
topic Sparse array configuration
Combinatorial CDS
Amplitude Tapering
Binomial Array
Hybrid Technique
SLL
url https://aemjournal.org/index.php/AEM/article/view/432
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