Uniform and Concentric Circular Antenna Arrays Synthesis for Smart Antenna Systems Using Artificial Neural Network Algorithm

Hamdi, Bilel; Selma, Limam; Aguili, Taoufik

doi:10.2528/pierb16031508

Cited by 22 publications

(25 citation statements)

References 16 publications

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“…The number of elements required for each antenna array, according to its geometry, are follows: (1) planar (PA) of the 8x8 and 16x16 elements, respectively; (2) circular (CA) of 21 and 47 elements; and (3) 42 circular concentric rings (CR) (with three rings) and 196 (with seven rings) elements. The design and model of each array geometry were carried out by computing the array factor; PA [28][29][30][31][32], CA [28][29][30][31]33], CR [34][35][36][37][38].…”

Section: Geometric Assessment Of Phased Antenna Arraysmentioning

confidence: 99%

Effects of Narrow Beam Phased Antenna Arrays over the Radio Channel Metrics, Doppler Power Spectrum, and Coherence Time, in a Context of 5G Frequency Bands

et al. 2021

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With the arrival of 5G wireless communication systems, there has been increased interest in exploring higher frequency bands above 6 GHz, up to millimeter-wave frequencies. Radio wave propagation at these higher frequencies can suffer from substantial Doppler impairments. The linear dependency of Doppler shifts with carrier frequencies make them challenging to use in high-mobility 5G cellular scenarios. Therefore, the Doppler power spectrum (DPS) characteristics and radio channel coherence time (CT) of the received signals are of great importance for 5G wireless systems. In this way, this paper presents the effects of a narrow beam phased antenna array in reducing the DPS (due to user movement) and, simultaneously, increasing the coherence time (CT). Functional and complete descriptive assessments of beamwidths versus the DPS and CT, through different elements and geometries of the phased antenna array, are analyzed. Moreover, in terms of CT and the DPS, better performance on the 5G cellular scenarios was obtained.

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Section: Geometric Assessment Of Phased Antenna Arraysmentioning

confidence: 99%

Effects of Narrow Beam Phased Antenna Arrays over the Radio Channel Metrics, Doppler Power Spectrum, and Coherence Time, in a Context of 5G Frequency Bands

et al. 2021

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“…Side lobe tersebut muncul akibat grating lobe pada pola susunan (array pattern) yang mulai muncul ketika dua buah elemen pada susunan antena terpisah pada jarak yang melebihi setengah panjang gelombang [9]. Berbagai penelitian telah dilakukan untuk menekan intensitas side lobe tersebut, antara lain penggunaan algoritma Flower Pollination [6], teknik Cat Swarm Optimization [10], teknik Particle Swarm Optimization dengan skala penyempitan dan pendekatan berat inersia [11] dan algoritma artificial neural network [12].…”

Section: Pendahuluanunclassified

Pengaruh Elemen Sentral Pada Susunan Antena Sirkular Untuk Sistem Teleskop Radio Transit

Anwar¹,

Islam

Misran

et al. 2018

JETT

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Susunan antena sirkular telah digunakan pada berbagai aplikasi, termasuk untuk system telekomunikasi dan dalam sistem teleskop radio. Artikel ini membahas pengaruh elemen sentral pada lebar berkas susunan antena sirkular untuk sistem teleskop radio transit. Analisis ini diperoleh dari simulasi dan dibandingkan dengan model teoritis sistem susunan antena 2-elemen dari pekerjaan sebelumnya. Hasil percobaan menunjukkan bahwa sistem susunan antena dengan elemen sentral memiliki lebar berkas yang lebih lebar dibandingkan dengan susunan antena tanpa elemen pusat, dengan intensitas side lobe yang lebih rendah. Karakteristik ini cocok untuk susunan antena yang akan diimplementasikan dalam sistem teleskop radio transit.

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“…In general, smart antenna arrays involve intelligent systems including genetic algorithms and neural networks to synthesize the radiation pattern [2,3]. Many research papers are proving that genetic algorithm (GA) is used basically for sidelobe reduction in antenna pattern synthesis [15,18]. As well, artificial neural networks (ANN) have been employed in various purposes such as pattern recognition systems, and have been taken into use for input-output mapping, system identification, adaptive prediction, etc..... Consequently, the present work is centered on the neural network technique that will be implemented for the synthesis of almost periodic network models, pointing out their most prominent features and distinctive characteristics [17,24,25].…”

Section: Introductionmentioning

confidence: 99%

Radiation Pattern Synthesis of the Coupled Almost Periodic Antenna Arrays Using Artificial Neural Network ANN Model

Hamdi¹,

Aguili²

2022

Preprint

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This paper proposes a radiation pattern synthesis of the almost periodic antenna arrays including mutual coupling effects (that extracted by the Floquet analysis according to our previous work), which principally has a high directivity and large bandwidth. For modeling the given structures, the moment method combined with the Generalized Equivalent Circuit (MoM-GEC) is proposed. The artificial neural network (ANN) as a powerful computational model has been successfully applied to the antenna array pattern synthesis. The results showed that the multilayer feedforward neural networks are rugged and can successfully and efficiently resolve various distinctive complex almost periodic antenna patterns (with different source amplitudes) (in particular, both periodic and randomly aperiodic structures are taken into account). However, the artificial neural network (ANN) is capable of quickly producing the synthesis results using generalization with the early stopping (ES) method. A significant time gain and memory consumption are achieved by using this given method to improve the generalization (called early stopping). To justify this work, several examples are developed and discussed.

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Uniform and Concentric Circular Antenna Arrays Synthesis for Smart Antenna Systems Using Artificial Neural Network Algorithm

Cited by 22 publications

References 16 publications

Effects of Narrow Beam Phased Antenna Arrays over the Radio Channel Metrics, Doppler Power Spectrum, and Coherence Time, in a Context of 5G Frequency Bands

Effects of Narrow Beam Phased Antenna Arrays over the Radio Channel Metrics, Doppler Power Spectrum, and Coherence Time, in a Context of 5G Frequency Bands

Pengaruh Elemen Sentral Pada Susunan Antena Sirkular Untuk Sistem Teleskop Radio Transit

Radiation Pattern Synthesis of the Coupled Almost Periodic Antenna Arrays Using Artificial Neural Network ANN Model

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