Said Gounane scite author profile

Said Gounane

4Publications

26Citation Statements Received

67Citation Statements Given

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Cadi Ayyad University

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An adaptive social distancing SIR model for COVID-19 disease spreading and forecasting

Gounane¹,

Barkouch²,

Atlas

et al. 2021

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Recently, various mathematical models have been proposed to model COVID-19 outbreak. These models are an effective tool to study the mechanisms of coronavirus spreading and to predict the future course of COVID-19 disease. They are also used to evaluate strategies to control this pandemic. Generally, SIR compartmental models are appropriate for understanding and predicting the dynamics of infectious diseases like COVID-19. The classical SIR model is initially introduced by Kermack and McKendrick (cf. (Anderson, R. M. 1991. “Discussion: the Kermack–McKendrick Epidemic Threshold Theorem.” Bulletin of Mathematical Biology 53 (1): 3–32; Kermack, W. O., and A. G. McKendrick. 1927. “A Contribution to the Mathematical Theory of Epidemics.” Proceedings of the Royal Society 115 (772): 700–21)) to describe the evolution of the susceptible, infected and recovered compartment. Focused on the impact of public policies designed to contain this pandemic, we develop a new nonlinear SIR epidemic problem modeling the spreading of coronavirus under the effect of a social distancing induced by the government measures to stop coronavirus spreading. To find the parameters adopted for each country (for e.g. Germany, Spain, Italy, France, Algeria and Morocco) we fit the proposed model with respect to the actual real data. We also evaluate the government measures in each country with respect to the evolution of the pandemic. Our numerical simulations can be used to provide an effective tool for predicting the spread of the disease.

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Stabilization of saturated discrete-time fuzzy systems

Benzaouia

Gounane

Tadeo

2011

Int. J. Control Autom. Syst.

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Handwritten Tifinagh Text Recognition Using Fuzzy K-NN and Bi-gram Language Model

Gounane¹,

Fakir²,

Bouikhalen³

2013

SpecialIssue

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Abstract-In this paper we present a new approach in Tifinagh character recognition using a combination of, k-nearest neighbor algorithm and the bigram language model. After the preprocessing of the text image, and the word segmentation, for each image character, the k-NN algorithm proposes candidates weighted of their membership degree. Then we use the bigram language model to choose the most appropriate sequence of characters. Results show that our method increases the recognition rate.

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SARSMutOnto: An Ontology for SARS-CoV-2 Lineages and Mutations

Bakkas

Hanine

Abderrahman

et al. 2023

Viruses

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Mutations allow viruses to continuously evolve by changing their genetic code to adapt to the hosts they infect. It is an adaptive and evolutionary mechanism that helps viruses acquire characteristics favoring their survival and propagation. The COVID-19 pandemic declared by the WHO in March 2020 is caused by the SARS-CoV-2 virus. The non-stop adaptive mutations of this virus and the emergence of several variants over time with characteristics favoring their spread constitute one of the biggest obstacles that researchers face in controlling this pandemic. Understanding the mutation mechanism allows for the adoption of anticipatory measures and the proposal of strategies to control its propagation. In this study, we focus on the mutations of this virus, and we propose the SARSMutOnto ontology to model SARS-CoV-2 mutations reported by Pango researchers. A detailed description is given for each mutation. The genes where the mutations occur and the genomic structure of this virus are also included. The sub-lineages and the recombinant sub-lineages resulting from these mutations are additionally represented while maintaining their hierarchy. We developed a Python-based tool to automatically generate this ontology from various published Pango source files. At the end of this paper, we provide some examples of SPARQL queries that can be used to exploit this ontology. SARSMutOnto might become a `wet bench’ machine learning tool for predicting likely future mutations based on previous mutations.

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Said Gounane

An adaptive social distancing SIR model for COVID-19 disease spreading and forecasting

Stabilization of saturated discrete-time fuzzy systems

Handwritten Tifinagh Text Recognition Using Fuzzy K-NN and Bi-gram Language Model

SARSMutOnto: An Ontology for SARS-CoV-2 Lineages and Mutations

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