Design and optimization of antenna arrays for 60 GHz hybrid smart antenna systems with consideration of inter-element electromagnetic interactions

The features of the use of finite waveguide antenna arrays in the structure of modern smart antenna systems are considered. The paper deals with the problem of diffraction of an electromagnetic wave on a finite waveguide antenna array scanning in the E-plane. Antenna array consists of five radiating elements. The open ends of the waveguides are surrounded by a metal screen. The resonator coupling region was chosen as matching elements. The solution of the problem is carried out by the integral equation method on the basis of the selection of overlapping regions. The problem reduces to solving the Fredholm integral equation of the second kind. An array of infinitely thin plates and that of waveguides with a finite wall thickness are considered. The main regularities for choosing the optimal geometric dimensions of the antenna array are established. Studies were carried out for arrays with a number of elements from five to fifteen. The analysis of edge effects in the final antenna array is carried out. It is shown that the introduction of a resonator region into a five-element lattice makes it possible to expand the sector of the radiation angles and avoid the effect of blinding. It is shown that this statement is valid not only for five-element lattices, but also for arrays with a large number of radiating elements. The radiation patterns are calculated. The coefficients of mutual coupling in an array with five elements are investigated. General recommendations for choosing optimal sizes of the resonator coupling region of radiators are considered.

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UNIFORM AND CONCENTRIC CIRCULAR ANTENNA ARRAYS SYNTHESIS FOR SMART ANTENNA SYSTEMS USING ARTIFICIAL NEURAL NETWORK ALGORITHM

Progress In Electromagnetics Research B ◽

10.2528/pierb16031508 ◽

2016 ◽

Vol 67 ◽

pp. 91-105 ◽

Cited By ~ 2

Author(s):

Bilel Hamdi ◽

Selma Limam ◽

Taoufik Aguili

Keyword(s):

Neural Network ◽

Artificial Neural Network ◽

Antenna Arrays ◽

Smart Antenna ◽

Network Algorithm ◽

Neural Network Algorithm ◽

Artificial Neural ◽

Artificial Neural Network Algorithm ◽

Antenna Systems ◽

Circular Antenna Arrays

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Discrete-time simulation of smart antenna systems in Network Simulator-2 Using MATLAB and Octave

SIMULATION ◽

10.1177/0037549710387762 ◽

2010 ◽

Vol 87 (11) ◽

pp. 932-946 ◽

Cited By ~ 3

Author(s):

Fulvio Babich ◽

Massimilliano Comisso ◽

Aljosa Dorni ◽

Flavio Barisi ◽

Marco Driusso ◽

...

Keyword(s):

Discrete Time ◽

Antenna Arrays ◽

Channel Coding ◽

Smart Antenna ◽

Discrete Event ◽

Mesh Network ◽

Adaptive Antenna ◽

Network Simulator ◽

Advantages And Disadvantages ◽

Antenna Systems

This paper presents two platforms that exploit the scalability properties of Network Simulator-2 for the discrete-event simulation of a telecommunication network, and the modeling capabilities of two development tools for the discrete-time implementation of adaptive antenna arrays at the physical layer. The two tools are the proprietary MATLAB and the open source Octave, both of which are used to implement the physical antenna system, the beamforming algorithm, the channel coding scheme, and the multipath and fading statistics. The adopted approach enables detailed modeling of the antenna radiation pattern generated by each network node, thus improving the accuracy of the signal-to-interference ratio estimated at the receiver. This study describes the methods that can be adopted to interface MATLAB and Octave with Network Simulator-2, and discusses the advantages and disadvantages that characterize the integration of the two tools with Network Simulator-2. The proposed numerical platforms, which can be interfaced with any wireless network supported by Network Simulator-2, are used to investigate the possibility of exploiting smart antenna systems in a wireless mesh network to enable the coexistence of multiple simultaneous communications.

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An Optimized Design of Antenna Arrays for the Smart Antenna Systems

Computers Materials & Continua ◽

10.32604/cmc.2021.018390 ◽

2021 ◽

Vol 69 (2) ◽

pp. 1979-1994

Author(s):

Fahd N. Al-Wesabi ◽

Murad A. A. Almekhlafi ◽

Huda G. Iskandar ◽

Adnan Zain ◽

Saleh Alzahrani ◽

...

Keyword(s):

Antenna Arrays ◽

Smart Antenna ◽

Optimized Design ◽

Antenna Systems

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Antenna Arrays Principle and Solutions: Robust Control Approach

International Journal of Computers Communications & Control ◽

10.15837/ijccc.2008.2.2384 ◽

2008 ◽

Vol 3 (2) ◽

pp. 161 ◽

Cited By ~ 1

Author(s):

Florin Hutu ◽

Sebastien Cauet ◽

Patrick Coirault

Keyword(s):

Antenna Arrays ◽

Smart Antenna ◽

Lyapunov Theory ◽

Linear Matrix ◽

Matrix Inequalities ◽

Control Approach ◽

Parameter Variations ◽

A Chain ◽

Lyapunov Theory Of Stability ◽

Antenna Systems

This paper treats solutions on the ability of a chain of non identical oscillators to drive antenna arrays. Frequency approaches were studied in order to solve the problem of synchronization of the oscillators. However, in this article, a new structure of chain of oscillators is introduced. Secondly, Lyapunov theory of stability is used to design a dynamical controller guarantying the oscillators synchronization. The problem of synchronization is transformed into a problem of asymptotic stabilization for a nonlinear system. It is formulated as a system of linear matrix inequalities where the parameter variations of the two oscillators and their differences are modeled by polytopic matrices. The theoretical result is successfully applied to an array of transistor-based oscillators used in "smart antenna" systems.

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3D Printed 60-GHz High-Gain Horn Antenna Arrays with 40% Bandwidth

2020 IEEE Asia-Pacific Microwave Conference (APMC) ◽

10.1109/apmc47863.2020.9331604 ◽

2020 ◽

Author(s):

Fanqi Sun ◽

Yujian Li ◽

Junhong Wang

Keyword(s):

Antenna Arrays ◽

Horn Antenna ◽

High Gain ◽

60 Ghz ◽

3D Printed

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Performance analysis of kernel based adaptive beamforming for smart antenna systems

2014 IEEE International Microwave and RF Conference (IMaRC) ◽

10.1109/imarc.2014.7039023 ◽

2014 ◽

Cited By ~ 1

Author(s):

Amara Prakasa Rao ◽

N. V. S. N. Sarma

Keyword(s):

Performance Analysis ◽

Smart Antenna ◽

Adaptive Beamforming ◽

Antenna Systems

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Compact Design of Annular-Microstrip-Fed mmW Antenna Arrays

Sensors ◽

10.3390/s21113695 ◽

2021 ◽

Vol 21 (11) ◽

pp. 3695

Author(s):

Shu-Dong Lin ◽

Shi Pu ◽

Chen Wang ◽

Hai-Yang Ren

Keyword(s):

Antenna Arrays ◽

Microstrip Antenna ◽

Radiation Characteristic ◽

60 Ghz ◽

Outer Contour ◽

Linear Arrays ◽

Directional Radiation ◽

Microstrip Antenna Array ◽

Compact Design ◽

Compact Array

In this paper, a series of four novel microstrip antenna array designs based on different annular-microstrip feeding lines at 60-GHz millimeter wave (mmW) band are proposed, aiming at the potential usage of the mmW coverage antenna with multi-directional property. As the feeding network, the annular contour microstrip lines are employed to connect the patch units so as to form a more compact array. Our first design is to use an outer contour annular microstrip line to connect four-direction linear arrays composed of 1 × 3 rectangular patches, thus the gain of 8.4 dBi and bandwidth of over 300 MHz are obtained. Our second design is to apply the two-direction pitchfork-shaped array each made up of two same linear arrays as the above, therefore the gain of 9.65 dBi and bandwidth of around 250 MHz are achieved. Our third design is to employ dual (inner and outer contour) annular-microstrip feeding lines to interconnect the above four-direction linear arrays, while our fourth design is to bring bridged annular-microstrip feeding lines, both of which can realize the goal of multi-directional radiation characteristic and higher gain of over 10 dBi.

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