Samar I. Gadallah scite author profile

Samar I. Gadallah

4Publications

8Citation Statements Received

47Citation Statements Given

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108

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Nile University

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Plant Tissue Modelling Using Power-Law Filters

Gadallah

Ghoneim

Elwakil

et al. 2022

Sensors

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Impedance spectroscopy has became an essential non-invasive tool for quality assessment measurements of the biochemical and biophysical changes in plant tissues. The electrical behaviour of biological tissues can be captured by fitting its bio-impedance data to a suitable circuit model. This paper investigates the use of power-law filters in circuit modelling of bio-impedance. The proposed models are fitted to experimental data obtained from eight different fruit types using a meta-heuristic optimization method (the Water Cycle Algorithm (WCA)). Impedance measurements are obtained using a Biologic SP150 electrochemical station, and the percentage error between the actual impedance and the fitted models’ impedance are reported. It is found that a circuit model consisting of a combination of two second-order power-law low-pass filters shows the least fitting error.

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Plant stem tissue modeling and parameter identification using metaheuristic optimization algorithms

Ghoneim

Gadallah

Said

et al. 2022

Sci Rep

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Bio-impedance non-invasive measurement techniques usage is rapidly increasing in the agriculture industry. These measured impedance variations reflect tacit biochemical and biophysical changes of living and non-living tissues. Bio-impedance circuit modeling is an effective solution used in biology and medicine to fit the measured impedance. This paper proposes two new fractional-order bio-impedance plant stem models. These new models are compared with three commonly used bio-impedance fractional-order circuit models in plant modeling (Cole, Double Cole, and Fractional-order Double-shell). The two proposed models represent the characterization of the biological cellular morphology of the plant stem. Experiments are conducted on two samples of three different medical plant species from the family Lamiaceae, and each sample is measured at two inter-electrode spacing distances. Bio-impedance measurements are done using an electrochemical station (SP150) in the range of 100 Hz to 100 kHz. All employed models are compared by fitting the measured data to verify the efficiency of the proposed models in modeling the plant stem tissue. The proposed models give the best results in all inter-electrode spacing distances. Four different metaheuristic optimization algorithms are used in the fitting process to extract all models parameter and find the best optimization algorithm in the bio-impedance problems.

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IOT-based air quality monitoring system for agriculture

Gamal

Gadallah

Osama

et al. 2022

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Chaotic Stochastic Neural Network Quantization and its Robustness Against Adversarial Attacks

Osama¹,

Gadallah²,

Fouda³

et al. 2023

Preprint

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Samar I. Gadallah

Plant Tissue Modelling Using Power-Law Filters

Plant stem tissue modeling and parameter identification using metaheuristic optimization algorithms

IOT-based air quality monitoring system for agriculture

Chaotic Stochastic Neural Network Quantization and its Robustness Against Adversarial Attacks

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