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Autori principali: Ahmed, Nauman, Alhilfi, Wissal Audah, AlMansury, Hanan A Z, Elwahab, Maysaa E A, Tahir, Muhammad, Alqasem, Ohud A, Iqbal, Zafar, Raza, Ali, Ceesay, Baboucarr, Rafiq, Muhammad, Khan, Ilyas
Natura: Artículo científico
Lingua:en
Pubblicazione: Scientific reports 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/40263375/
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author Ahmed, Nauman
Alhilfi, Wissal Audah
AlMansury, Hanan A Z
Elwahab, Maysaa E A
Tahir, Muhammad
Alqasem, Ohud A
Iqbal, Zafar
Raza, Ali
Ceesay, Baboucarr
Rafiq, Muhammad
Khan, Ilyas
author_facet Ahmed, Nauman
Alhilfi, Wissal Audah
AlMansury, Hanan A Z
Elwahab, Maysaa E A
Tahir, Muhammad
Alqasem, Ohud A
Iqbal, Zafar
Raza, Ali
Ceesay, Baboucarr
Rafiq, Muhammad
Khan, Ilyas
Ahmed, Nauman
Alhilfi, Wissal Audah
AlMansury, Hanan A Z
Elwahab, Maysaa E A
Tahir, Muhammad
Alqasem, Ohud A
Iqbal, Zafar
Raza, Ali
Ceesay, Baboucarr
Rafiq, Muhammad
Khan, Ilyas
collection PubMed - marine biology
contents A statistical estimation of fractional order cryptosporidiosis epidemic model. Ahmed, Nauman Alhilfi, Wissal Audah AlMansury, Hanan A Z Elwahab, Maysaa E A Tahir, Muhammad Alqasem, Ohud A Iqbal, Zafar Raza, Ali Ceesay, Baboucarr Rafiq, Muhammad Khan, Ilyas Cryptosporidiosis Humans Epidemics Models, Statistical Basic Reproduction Number Computer Simulation In this study, a statistical estimation is done for an epidemic model of cryptosporidiosis by changing it into a fractional order system. The disease-free equilibrium point, and the endemic equilibrium point are the two equilibrium points and Jacobian matrix theory is used to determine stability. The basic reproductive number [Formula: see text] is calculated and examined for its role in disease dynamics and stability analysis. The numerical technique named Grunwald Letnikov non-standard finite difference (GL-NSFD) scheme is designed for solving the fractional epidemic model. To investigate the characteristics and properties of numerical design, a test problem is considered for the simulation. For the underlying system, a non-classical numerical approach is suggested. The state variables cannot be negative because they describe the number of people. The suggested numerical scheme must have the properties of positivity and boundedness. The positivity and boundedness of the fractional order cryptosporidiosis epidemic model are investigated with the help of Laplace and inverse Laplace transformation. Finally, the conclusions of the study are elaborated.
format Artículo científico
id pubmed_40263375
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle A statistical estimation of fractional order cryptosporidiosis epidemic model.
Ahmed, Nauman
Alhilfi, Wissal Audah
AlMansury, Hanan A Z
Elwahab, Maysaa E A
Tahir, Muhammad
Alqasem, Ohud A
Iqbal, Zafar
Raza, Ali
Ceesay, Baboucarr
Rafiq, Muhammad
Khan, Ilyas
Cryptosporidiosis
Humans
Epidemics
Models, Statistical
Basic Reproduction Number
Computer Simulation
A statistical estimation of fractional order cryptosporidiosis epidemic model. Ahmed, Nauman Alhilfi, Wissal Audah AlMansury, Hanan A Z Elwahab, Maysaa E A Tahir, Muhammad Alqasem, Ohud A Iqbal, Zafar Raza, Ali Ceesay, Baboucarr Rafiq, Muhammad Khan, Ilyas Cryptosporidiosis Humans Epidemics Models, Statistical Basic Reproduction Number Computer Simulation In this study, a statistical estimation is done for an epidemic model of cryptosporidiosis by changing it into a fractional order system. The disease-free equilibrium point, and the endemic equilibrium point are the two equilibrium points and Jacobian matrix theory is used to determine stability. The basic reproductive number [Formula: see text] is calculated and examined for its role in disease dynamics and stability analysis. The numerical technique named Grunwald Letnikov non-standard finite difference (GL-NSFD) scheme is designed for solving the fractional epidemic model. To investigate the characteristics and properties of numerical design, a test problem is considered for the simulation. For the underlying system, a non-classical numerical approach is suggested. The state variables cannot be negative because they describe the number of people. The suggested numerical scheme must have the properties of positivity and boundedness. The positivity and boundedness of the fractional order cryptosporidiosis epidemic model are investigated with the help of Laplace and inverse Laplace transformation. Finally, the conclusions of the study are elaborated.
title A statistical estimation of fractional order cryptosporidiosis epidemic model.
topic Cryptosporidiosis
Humans
Epidemics
Models, Statistical
Basic Reproduction Number
Computer Simulation
url https://pubmed.ncbi.nlm.nih.gov/40263375/