N. Aouzale scite author profile

N. Aouzale

5Publications

10Citation Statements Received

30Citation Statements Given

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Affiliations

Cadi Ayyad University, Sup de Co Marrakech

Publications

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PSpice Modelling Diffraction Effects in Pulse Echo Ultrasonic System

Aouzale

Chitnalah

Jakjoud

et al. 2007

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The ultrasonic wave propagation is affected by absorption and diffraction. The transmission line is used to simulate the propagation media in PSpice model. To take into account diffraction effects we used the model proposed by J. Johansson [11]. A set of Gaussian beam is used to simulate the radiated field allowing us to deduce the exact diffraction loss. The diffraction loss is incorporated into the transmission line model using the attenuation parameter G. Measurements have been performed using a pulse echo system transmitting in water. The measurements show good agreement with the simulation results.

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PSpice Modelling of an Ultrasonic Setup for Materials Characterization

et al. 2008

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PSpice modelling nonlinearity effects on ultrasonic waves

Aouzale

Chitnalah

Jakjoud

2009

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Experimental Validation of SPICE Modeling Diffraction Effects in a Pulse–Echo Ultrasonic System

Aouzale¹,

Chitnalah²,

Jakjoud³

2009

IEEE Trans. Circuits Syst. II

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During its propagation in a given medium, the ultrasonic wave is disturbed by several phenomena that affect the waveform in both time and frequency domains. Among these phenomena, the most important are absorption, nonlinearity, and diffraction. The aim of this brief is to simulate in the SPICE-like simulator the diffraction losses in a pulse-echo ultrasonic system. A set of Gaussian beams is used to simulate the radiated field, allowing us to analytically deduce the exact diffraction losses instead of experimentally measuring them. This permits us to avoid errors due to experiments and waste of time. Our study is made for both focused and unfocused sources in three different media, namely, distilled water, glycerol, and methanol. To prove the validity of the SPICE model, a comparison is made between simulation and measurements, and the results show satisfactory agreement.

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Comparison between VHDL-AMS and PSPICE modeling of ultrasound measurement system for biological medium

Aouzale

Chitnalah

Jakjoud

et al. 2010

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N. Aouzale

PSpice Modelling Diffraction Effects in Pulse Echo Ultrasonic System

PSpice Modelling of an Ultrasonic Setup for Materials Characterization

PSpice modelling nonlinearity effects on ultrasonic waves

Experimental Validation of SPICE Modeling Diffraction Effects in a Pulse–Echo Ultrasonic System

Comparison between VHDL-AMS and PSPICE modeling of ultrasound measurement system for biological medium

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