Linear Array Design with Switched Beams for Wireless Communications Systems

Ludwig-Barbosa, Vinícius; Schlosser, Edson R.; Machado, Renato; Ferreira, Filipe Guterres; Tolfo, Sabrina Müller; Heckler, Marcos V. T.

doi:10.1155/2015/278160

Cited by 5 publications

(4 citation statements)

References 22 publications

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“…Optimal directivity and gain can be achieved by optimizing parameters such as inter‐element spacing, excitation amplitude, and excitation phase. The design of proper antenna array techniques leads to significant improvement in the reliability and throughput of the wireless communication systems 11 . Antenna beams are used for different applications in communication systems.…”

Section: Introductionmentioning

confidence: 99%

Multi‐beam steered harmonic pattern synthesis in timed antenna array with optimized and pre‐defined RF switching

Ram

2021

Int J Numerical Modelling

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Optimal harmonic beam steering of the time‐modulated linear antenna array (TMLAA) with optimized and pre‐defined ON and OFF switching schemes are proposed in this work. Three different approaches are considered to obtain various beam steering behaviors of TMLAA. The first approach is considered for the optimization of ON–OFF switching sequence for the steering of the harmonic beams toward approximately ±30° along with the simultaneous reduction of side lobe level (SLL) and side band level (SBL). Second approach is considered for the optimization of ON–OFF switching sequence for the steering of the harmonic beams toward approximately ±30° and ±60° simultaneously. Third approach is considered for the optimal reduction of SLL and SBL of harmonically steered beams for a pre‐defined ON–OFF switching scheme. Two unique cost function is proposed in this work to achieve the optimal parameter for above mentioned three different approaches. The first cost function is used for the optimization of Ton and Toff switching sequence and antenna element spacing of the array. These optimal values will lead to steer the main beam of first positive and negative harmonic radiation from the main beam of the fundamental radiation pattern and reduce SLL and SBL simultaneously. Second cost function deals with the optimization of excitation amplitude and distance between any two consecutive antennas of the array. These optimal values lead to reducing the SLL and SBL simultaneously harmonically steered beam obtained by pre‐defined Ton and Toff switching sequence. Optimization algorithm applied to get the optimal value of the variable parameters is Novel Particle Swarm Optimization. Further to explain the stated proposed approach, four different sets of 10‐, 16‐, 20‐, 32‐element TMLAA are taken as an example. Some of the simulation results are validated through electromagnetic simulator to validate the result obtained by MATLAB.

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Section: Introductionmentioning

confidence: 99%

Multi‐beam steered harmonic pattern synthesis in timed antenna array with optimized and pre‐defined RF switching

Ram

2021

Int J Numerical Modelling

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“…The analysis presented in [21] proves that an amount of beams equivalent to the number of elements (n elements and n beam-pointing directions) in a given antenna array is a good trade-off in terms of overall system costs and SNR performance. An amount of beams bigger than the number of elements causes small improvements in the system performance, tending to average SNR level saturation.…”

Section: Synthesis Of the Array With Switched-beamsmentioning

confidence: 86%

Beamforming of a Linear Array Applying PSO Algorithm with Restrictive Approach

Ludwig-Barbosa

Schlosser

Lucatel

et al. 2016

JCIS

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This paper presents a four-element linear array composed of E-shaped microstrip antennas designed to switchedbeam application in ISM (Industrial, Scientific and Medical) radio band. Particle Swarm Optimization (PSO) algorithm is used to optimize four different sets of amplitude and progressive phase shift to achieve four distinct radiation patterns controlling the major lobe direction and sidelobe level. For this application, two restrictive approaches are presented for the implementation of PSO in order to guide the algorithm to feasible solutions.

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“…Considering such array covering a 60 • sector of a cellular cell, four distinguished beams are required to yield efficiently coverage of such sectored area. The choice of the number of beams take into account the balance between stable performance during transmission and system requirementsas available bits for feedback information to set the chosen beamforming during the communication [19]. Consequently, four sets of excitation amplitudes should be provided by the optimization algorithm to radiate the required patterns.…”

Section: Beamforming Synthesismentioning

confidence: 99%

Beamforming of an E-shaped Linear Array for WLAN Systems Applying PSO Algorithm with Restrictive Approach

Ludwig-Barbosa¹,

Magalhães²,

Machado³

et al. 2015

Anais De XXXIII Simpósio Brasileiro De Telecomunicações

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This paper presents a four-element linear array composed of E-shaped microstrip antennas designed to switchedbeam application in WLAN systems. Particle Swarm Optimization (PSO) algorithm is applied to optimize the amplitude of the excitation currents applied to each array radiator aiming to yield four distinct beams with 25 dB suppression of sidelobes. For this application, it has been verified the necessity of a constraint of power applied to each radiator in the PSO optimization in order to improve the algorithm convergence and to achieve only feasible solutions which satisfy the imposed constraints.

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Linear Array Design with Switched Beams for Wireless Communications Systems

Cited by 5 publications

References 22 publications

Multi‐beam steered harmonic pattern synthesis in timed antenna array with optimized and pre‐defined RF switching

Multi‐beam steered harmonic pattern synthesis in timed antenna array with optimized and pre‐defined RF switching

Beamforming of a Linear Array Applying PSO Algorithm with Restrictive Approach

Beamforming of an E-shaped Linear Array for WLAN Systems Applying PSO Algorithm with Restrictive Approach

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