Susceptible exposed infectious recovered-machine learning for COVID-19 prediction in Saudi Arabia

Mutasem K. Alsmadi; Ghaith M. Jaradat; Sami A. Abahussain; Mohammed Fahed Tayfour; Usama A. Badawi; Hayat Alfagha; Muneerah Ebrahem Alshabanah; Daniah Abdulrahman Alrajhi; Hanouf Naif ALkhaldi; Njoud Ahmad Altuwaijri; Hany Answer ShoShan; Hayah Mohamed Abouelnaga; Ahmed Baz Mohamed Metwally

doi:10.11591/ijece.v13i4.pp4761-4776

Susceptible exposed infectious recovered-machine learning for COVID-19 prediction in Saudi Arabia

Mutasem K. Alsmadi^*
, Ghaith M. Jaradat
, Sami A. Abahussain
, Mohammed Fahed Tayfour
, Usama A. Badawi
, Hayat Alfagha
, Muneerah Ebrahem Alshabanah
, Daniah Abdulrahman Alrajhi
, Hanouf Naif ALkhaldi
, Njoud Ahmad Altuwaijri
, Hany Answer ShoShan
, Hayah Mohamed Abouelnaga
, Ahmed Baz Mohamed Metwally

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Susceptible exposed infectious recovered (SEIR) is among the epidemiological models used in forecasting the spread of disease in large populations. SEIR is a fitting model for coronavirus disease (COVID-19) spread prediction. Somehow, in its original form, SEIR could not measure the impact of lockdowns. So, in the SEIR equations system utilized in this study, a variable was included to evaluate the impact of varying levels of social distance on the transmission of COVID-19. Additionally, we applied artificial intelligence utilizing the deep neural network machine learning (ML) technique. On the initial spread data for Saudi Arabia that were available up to June 25th, 2021, this improved SEIR model was used. The study shows possible infection to around 3.1 million persons without lockdown in Saudi Arabia at the peak of spread, which lasts for about 3 months beginning from the lockdown date (March 21st). On the other hand, the Kingdom's current partial lockdown policy was estimated to cut the estimated number of infections to 0.5 million over nine months. The data shows that stricter lockdowns may successfully flatten the COVID-19 graph curve in Saudi Arabia. We successfully predicted the COVID-19 epidemic's peaks and sizes using our modified deep neural network (DNN) and SEIR model.

Original language	English
Pages (from-to)	4761-4776
Number of pages	16
Journal	International Journal of Electrical and Computer Engineering
Volume	13
Issue number	4
DOIs	https://doi.org/10.11591/ijece.v13i4.pp4761-4776
State	Published - Aug 2023

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

COVID-19
Deep neural network
Disease spread
Lockdowns
Machine learning
Saudi Arabia
Susceptible exposed infectious
recovered model

Access to Document

10.11591/ijece.v13i4.pp4761-4776

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Alsmadi, M. K., Jaradat, G. M., Abahussain, S. A., Tayfour, M. F., A. Badawi, U., Alfagha, H., Alshabanah, M. E., Alrajhi, D. A., ALkhaldi, H. N., Altuwaijri, N. A., ShoShan, H. A., Abouelnaga, H. M., & Metwally, A. B. M. (2023). Susceptible exposed infectious recovered-machine learning for COVID-19 prediction in Saudi Arabia. International Journal of Electrical and Computer Engineering, 13(4), 4761-4776. https://doi.org/10.11591/ijece.v13i4.pp4761-4776

@article{395fce75ff024a1bbe80ab3acb0293f4,

title = "Susceptible exposed infectious recovered-machine learning for COVID-19 prediction in Saudi Arabia",

abstract = "Susceptible exposed infectious recovered (SEIR) is among the epidemiological models used in forecasting the spread of disease in large populations. SEIR is a fitting model for coronavirus disease (COVID-19) spread prediction. Somehow, in its original form, SEIR could not measure the impact of lockdowns. So, in the SEIR equations system utilized in this study, a variable was included to evaluate the impact of varying levels of social distance on the transmission of COVID-19. Additionally, we applied artificial intelligence utilizing the deep neural network machine learning (ML) technique. On the initial spread data for Saudi Arabia that were available up to June 25th, 2021, this improved SEIR model was used. The study shows possible infection to around 3.1 million persons without lockdown in Saudi Arabia at the peak of spread, which lasts for about 3 months beginning from the lockdown date (March 21st). On the other hand, the Kingdom's current partial lockdown policy was estimated to cut the estimated number of infections to 0.5 million over nine months. The data shows that stricter lockdowns may successfully flatten the COVID-19 graph curve in Saudi Arabia. We successfully predicted the COVID-19 epidemic's peaks and sizes using our modified deep neural network (DNN) and SEIR model.",

keywords = "COVID-19, Deep neural network, Disease spread, Lockdowns, Machine learning, Saudi Arabia, Susceptible exposed infectious, recovered model",

author = "Alsmadi, \{Mutasem K.\} and Jaradat, \{Ghaith M.\} and Abahussain, \{Sami A.\} and Tayfour, \{Mohammed Fahed\} and \{A. Badawi\}, Usama and Hayat Alfagha and Alshabanah, \{Muneerah Ebrahem\} and Alrajhi, \{Daniah Abdulrahman\} and ALkhaldi, \{Hanouf Naif\} and Altuwaijri, \{Njoud Ahmad\} and ShoShan, \{Hany Answer\} and Abouelnaga, \{Hayah Mohamed\} and Metwally, \{Ahmed Baz Mohamed\}",

year = "2023",

month = aug,

doi = "10.11591/ijece.v13i4.pp4761-4776",

language = "English",

volume = "13",

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Alsmadi, MK, Jaradat, GM, Abahussain, SA, Tayfour, MF, A. Badawi, U, Alfagha, H, Alshabanah, ME, Alrajhi, DA, ALkhaldi, HN, Altuwaijri, NA, ShoShan, HA, Abouelnaga, HM & Metwally, ABM 2023, 'Susceptible exposed infectious recovered-machine learning for COVID-19 prediction in Saudi Arabia', International Journal of Electrical and Computer Engineering, vol. 13, no. 4, pp. 4761-4776. https://doi.org/10.11591/ijece.v13i4.pp4761-4776

TY - JOUR

T1 - Susceptible exposed infectious recovered-machine learning for COVID-19 prediction in Saudi Arabia

AU - Alsmadi, Mutasem K.

AU - Jaradat, Ghaith M.

AU - Abahussain, Sami A.

AU - Tayfour, Mohammed Fahed

AU - A. Badawi, Usama

AU - Alfagha, Hayat

AU - Alshabanah, Muneerah Ebrahem

AU - Alrajhi, Daniah Abdulrahman

AU - ALkhaldi, Hanouf Naif

AU - Altuwaijri, Njoud Ahmad

AU - ShoShan, Hany Answer

AU - Abouelnaga, Hayah Mohamed

AU - Metwally, Ahmed Baz Mohamed

PY - 2023/8

Y1 - 2023/8

N2 - Susceptible exposed infectious recovered (SEIR) is among the epidemiological models used in forecasting the spread of disease in large populations. SEIR is a fitting model for coronavirus disease (COVID-19) spread prediction. Somehow, in its original form, SEIR could not measure the impact of lockdowns. So, in the SEIR equations system utilized in this study, a variable was included to evaluate the impact of varying levels of social distance on the transmission of COVID-19. Additionally, we applied artificial intelligence utilizing the deep neural network machine learning (ML) technique. On the initial spread data for Saudi Arabia that were available up to June 25th, 2021, this improved SEIR model was used. The study shows possible infection to around 3.1 million persons without lockdown in Saudi Arabia at the peak of spread, which lasts for about 3 months beginning from the lockdown date (March 21st). On the other hand, the Kingdom's current partial lockdown policy was estimated to cut the estimated number of infections to 0.5 million over nine months. The data shows that stricter lockdowns may successfully flatten the COVID-19 graph curve in Saudi Arabia. We successfully predicted the COVID-19 epidemic's peaks and sizes using our modified deep neural network (DNN) and SEIR model.

AB - Susceptible exposed infectious recovered (SEIR) is among the epidemiological models used in forecasting the spread of disease in large populations. SEIR is a fitting model for coronavirus disease (COVID-19) spread prediction. Somehow, in its original form, SEIR could not measure the impact of lockdowns. So, in the SEIR equations system utilized in this study, a variable was included to evaluate the impact of varying levels of social distance on the transmission of COVID-19. Additionally, we applied artificial intelligence utilizing the deep neural network machine learning (ML) technique. On the initial spread data for Saudi Arabia that were available up to June 25th, 2021, this improved SEIR model was used. The study shows possible infection to around 3.1 million persons without lockdown in Saudi Arabia at the peak of spread, which lasts for about 3 months beginning from the lockdown date (March 21st). On the other hand, the Kingdom's current partial lockdown policy was estimated to cut the estimated number of infections to 0.5 million over nine months. The data shows that stricter lockdowns may successfully flatten the COVID-19 graph curve in Saudi Arabia. We successfully predicted the COVID-19 epidemic's peaks and sizes using our modified deep neural network (DNN) and SEIR model.

KW - COVID-19

KW - Deep neural network

KW - Disease spread

KW - Lockdowns

KW - Machine learning

KW - Saudi Arabia

KW - Susceptible exposed infectious

KW - recovered model

UR - https://www.scopus.com/pages/publications/85152099451

U2 - 10.11591/ijece.v13i4.pp4761-4776

DO - 10.11591/ijece.v13i4.pp4761-4776

M3 - Article

AN - SCOPUS:85152099451

SN - 2088-8708

VL - 13

SP - 4761

EP - 4776

JO - International Journal of Electrical and Computer Engineering

JF - International Journal of Electrical and Computer Engineering

IS - 4

ER -

Susceptible exposed infectious recovered-machine learning for COVID-19 prediction in Saudi Arabia

Abstract

UN SDGs

Keywords

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