Radar Cross Section Computation of Microstrip Patches

Bokhari, S.A.; Mosig, J. R.; Gardiol, F.

doi:10.1080/02726349408908367

Cited by 4 publications

(2 citation statements)

References 18 publications

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“…The patch is equally decomposed into two parts: the mesh size of

0.1 λ

is chosen for the part of

x > 0

, while the mesh size of

0.06 λ

is used for the rest part. The result of monostatic RCS is solved by the DDM with second‐order basis functions and compared with the result in , as shown in Figure . The two results agree very well.…”

Section: Numerical Resultsmentioning

confidence: 99%

An interior penalty Galerkin domain decomposition method based on high‐order basis function

Shi

Zhou

Chen

2015

Micro & Optical Tech Letters

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combined effect of pointing error and channel turbulence is highly degrading the channel capacity of the FSO channel. CONCLUSIONFSO communication is an upcoming wireless technology designed provides the last mile access and other indoor applications. But they are greatly hampered by the channel turbulence and pointing error effects. In this article, the effects of these adversities are investigated by deriving the closed form expressions for the ABER and ergodic channel capacity for a BPSK-SIM FSO system. The analytical graphs of these parameters are then plotted. These plots clearly indicate the effects of the FSO channel on the performance of the communication system.

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“…The patch is equally decomposed into two parts: the mesh size of

0.1 λ

is chosen for the part of

x > 0

, while the mesh size of

0.06 λ

Section: Numerical Resultsmentioning

confidence: 99%

An interior penalty Galerkin domain decomposition method based on high‐order basis function

Shi

Zhou

Chen

2015

Micro & Optical Tech Letters

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show abstract

“…Despite ADS Momentum simulator (a 2.5D simulator) ability to account for multilayer geometries it assumes the dielectric layers as being infinite. However, the finite size of the ground plane and substrate affect the antenna behavior [9] and the 3D High Frequency Structure Simulator (HFSS) was used to include those effects.…”

Section: Antenna Modelingmentioning

confidence: 99%

Wireless hydrotherapy smart suit for monitoring handicapped people

Correia

Mendes

2005

Smart Structures, Devices, and Systems II

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This paper presents a smart suit, water impermeable, containing sensors and electronics for monitoring handicapped people at hydrotherapy sessions in swimming-pools. For integration into textiles, electronic components should be designed in a functional, robust and inexpensive way. Therefore, small-size electronics microsystems are a promising approach. The smart suit allows the monitoring of individual biometric data, such as heart rate, temperature and movement of the body. Two solutions for transmitting the data wirelessly are presented: through a low-voltage (3.0 V), low-power, CMOS RF IC (1.6 mm x 1.5 mm size dimensions) operating at 433 MHz, with ASK modulation and a patch antenna built on lossy substrates compatible with integrated circuits fabrication. Two different substrates were used for antenna implementation: high-resistivity silicon (HRS) and Corning Pyrex #7740 glass. The antenna prototypes were built to operate close to the 5 GHz ISM band. They operate at a center frequency of 5.705 GHz (HRS) and 5.995 GHz (Pyrex). The studied parameters were: substrate thickness, substrate losses, oxide thickness, metal conductivity and thickness. The antenna on HRS uses an area of 8 mm 2 , providing a 90 MHz bandwidth and ~0.3 dBi of gain. On a glass substrate, the antenna uses 12 mm 2 , provides 100 MHz bandwidth and ~3 dBi of gain.

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A multilevel BCG-FFT method for the analysis of a microstrip antenna and array

Wang

Jin

et al. 2000

Microw. Opt. Technol. Lett.

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Radar Cross Section Computation of Microstrip Patches

Cited by 4 publications

References 18 publications

An interior penalty Galerkin domain decomposition method based on high‐order basis function

An interior penalty Galerkin domain decomposition method based on high‐order basis function

Wireless hydrotherapy smart suit for monitoring handicapped people

A multilevel BCG-FFT method for the analysis of a microstrip antenna and array

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