Analysis of Frequency Selective Surfaces for Radar Absorbing Materials

Singh, Dharmendra; Kumar, Abhishek; Meena, Shivram; Agarwala, and Vijaya

doi:10.2528/pierb11121601

Cited by 91 publications

(45 citation statements)

References 27 publications

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“…The database is being reproduced in Table 1 for the sake of completeness. The number of materials in the database is limited to 16; however, database can be extended for any number of materials (experimentally achieved/fictitious) such as the materials database used by the researchers in reference [7,12,30].…”

Section: Examplesmentioning

confidence: 99%

On the Design and Reliability Analysis of Electromagnetic Absorbers Using Real-Coded Genetic Algorithm and Monte Carlo Simulation

Gargama¹,

Chaturvedi²,

Thakur³

2012

PIER B

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Abstract-In this paper, we propose an approach for designing and quantitatively assessing the performance of the multilayered radarabsorbing structure. In our proposed approach, a five layered radarabsorbing materials design is optimized from the predefined materials database. But to determine the optimal choice of the material and thickness of each layer, a combined binary and real-coded genetic algorithm (GA) is used to handle the integer and real variables involved in such designs. Further, the proposed approach employs the Latin hypercube sampling with Monte Carlo Simulation to carry out the performance based reliability analysis of the design. Absorber synthesized results are compared with the published work using other algorithms. The outcomes of our approach show that the combined GA works quite well, and most prominently the reliability analysis provides the decision maker a means to select among the several design alternatives available before him.

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Section: Examplesmentioning

confidence: 99%

On the Design and Reliability Analysis of Electromagnetic Absorbers Using Real-Coded Genetic Algorithm and Monte Carlo Simulation

Gargama¹,

Chaturvedi²,

Thakur³

2012

PIER B

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“…Due to good transmission or high reflection characteristics to electromagnetic (EM) wave, frequency selective surfaces (FSSs) are widely applied in electromagnetic compatibility (EMC), playing the role of space filters with stable responses to frequencies and polarizations [4][5][6][7][8]. In recent years, EM wave propagation controlling has become a hot research topic in these areas.…”

Section: Introductionmentioning

confidence: 99%

A Frequency Selective Surface With Polarization Rotation Based on Substrate Integrated Wavwguide

Zhong¹,

Hou²,

Wu³

et al. 2016

PIER Letters

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Abstract-A frequency selective surface (FSS) with polarization rotation which provides a quasielliptic bandpass response is presented in this paper. Based on substrate integrated waveguide cavity (SIWC), 90 degrees polarization rotation is obtained when electromagnetic wave passes through the frequency selective surface at specially appointed polarization in a range of 16.28-16.70 GHz. Moreover, TM 120 /TM 210 dual-mode configuration appears in the cavity within the passband. The design has been proved with high stability to electromagnetic wave of different incident angles. And the measured results in anechoic chamber provide good agreement with those from commercial software simulations.

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“…The function of a microwave absorber is to absorb waves that are reflected by the walls and the ceiling of the anechoic chamber [6][7][8][9][10][11][12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 99%

Development of Pyramidal Microwave Absorber Using Sugar Cane Bagasse (Scb)

Zahid¹,

Malek²,

Nornikman³

et al. 2013

PIER

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Abstract-The need to find ways to effectively utilize the large quantities of agricultural waste that are produced is indicative of the huge potential associated with producing an alternative pyramidal microwave absorber for anechoic chamber-testing applications. We propose the development of a pyramidal microwave absorber that can use sugar cane bagasse (SCB), a byproduct from the production and processing of sugar cane, as the absorbent. In this paper, we report the results of our use of dielectric probe measurement to determine the dielectric constant and loss tangent of SCB. These values were used to model and simulate an SCB pyramidal microwave absorber in Computer Simulation Technology's (CST's) Microwave Studio. This absorber was operated in the microwave frequency range between 0.1 GHz and 20.0 GHz.

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Analysis of Frequency Selective Surfaces for Radar Absorbing Materials

Cited by 91 publications

References 27 publications

On the Design and Reliability Analysis of Electromagnetic Absorbers Using Real-Coded Genetic Algorithm and Monte Carlo Simulation

On the Design and Reliability Analysis of Electromagnetic Absorbers Using Real-Coded Genetic Algorithm and Monte Carlo Simulation

A Frequency Selective Surface With Polarization Rotation Based on Substrate Integrated Wavwguide

Development of Pyramidal Microwave Absorber Using Sugar Cane Bagasse (Scb)

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