A Dominance‐Based Rough Set Approach for an Enhanced Assessment of Seasonal Influenza Risk

Younsi, Fatima-Zohra; Chakhar, Salem; Ishizaka, Alessio; Hamdadou, Djamila; Boussaïd, Omar

doi:10.1111/risa.13478

Cited by 8 publications

(2 citation statements)

References 57 publications

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“…The advantage of producing vulnerability maps means that places that have been subject to previous pandemics and their risks (UNISDR, 2009;Hazarika et al, 2018) can be identified in addition to a multidimensional comprehension of social, economic, ecological and geographical factors. However, there are many aspects related to the current context (Adger, 2006;Younsi et al, 2020), which led us to construct a decision-learning model to identify areas vulnerable to COVID-19 using, simultaneously, demographic variables associated with the occurrence of the disease, including space characteristics and transmission dynamics.…”

Section: Introductionmentioning

confidence: 99%

Vulnerability to COVID-19 in Pernambuco, Brazil: A geospatial evaluation supported by multiple-criteria decision aid methodology

et al. 2022

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The paper presents an innovative application to identify areas vulnerable to coronavirus disease 2019 (COVID-19) considering a combination of spatial analysis and a multi-criteria learning approach. We applied this methodology in the state of Pernambuco, Brazil identifying vulnerable areas by considering a set of determinants and risk factors for COVID-19, including demographic, economic and spatial characteristics and the number of human COVID-19 infections. Examining possible patterns over a set number of days taking the number of cases recorded, we arrived at a set of compatible decision rules to explain the relation between risk factors and COVID-19 cases. The results reveal why certain municipalities are critically vulnerable to COVID-19 highlighting locations for which knowledge can be gained about environmental factors.

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Section: Introductionmentioning

confidence: 99%

Vulnerability to COVID-19 in Pernambuco, Brazil: A geospatial evaluation supported by multiple-criteria decision aid methodology

et al. 2022

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“…On the scientific front, recent research has contributed to improved health capabilities. Initiatives include the development of decision support systems to increase the surveillance of health capability (Younsi et al., 2019; Younsi et al., 2020), the use of portfolio decision analysis to evaluate and improve capabilities of health security systems (Del Rio Vilas et al., 2013), and extensive discussions about the capabilities needed to face priority emerging and reemerging infectious diseases and to strength global health security systems (Ross et al., 2015). Other studies have focused on a specific health capability.…”

Section: Introductionmentioning

confidence: 99%

A framework for supporting health capability‐based planning: Identifying and structuring health capabilities

Zawadzki

Montibeller

2022

Risk Analysis

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The COVID-19 pandemic has highlighted that health security systems must be redesigned, in a way that they are better prepared and ready to cope with multiple and diverse health threats, from predictable and well-known epidemics to unexpected and challenging pandemics. A powerful way of accomplishing this goal is to focus the planning on health capabilities. This focus may enhance the ability to respond to and recover from health threats and emergencies, while helping to identify the level of resources required to maintain and build up those capabilities that are critical in ensuring the preparedness of health security systems. However, current attempts for defining and organizing health capabilities have some important limitations. First, such attempts were not designed to consider diverse scenarios and multiple health threats. Second, they provide a limited representation of capabilities and lack a systemic perspective. Third, they struggle to identify capability and resource gaps. In this article, we thus propose a new framework for identifying and structuring health capabilities and support health capability planning. The suggested framework has three main potential benefits. First, the framework may help policymakers in planning under high levels of uncertainty, by considering multiple realistic and stressful scenarios. Second, it can provide risk analysts with a more comprehensive representation of health capabilities and their complex relationships. Third, it can support planners in identifying resource and capability gaps. We illustrate the use of the framework in practice considering an outbreak scenario caused by three different health threats (COVID-19, Ebola, and Influenza viruses).

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Preference Disaggregation Analysis: An Overview of Methodological Advances and Applications

Doumpos

Grigoroudis

Matsatsinis

et al. 2022

Intelligent Decision Support Systems

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A Dominance‐Based Rough Set Approach for an Enhanced Assessment of Seasonal Influenza Risk

Cited by 8 publications

References 57 publications

Vulnerability to COVID-19 in Pernambuco, Brazil: A geospatial evaluation supported by multiple-criteria decision aid methodology

Vulnerability to COVID-19 in Pernambuco, Brazil: A geospatial evaluation supported by multiple-criteria decision aid methodology

A framework for supporting health capability‐based planning: Identifying and structuring health capabilities

Preference Disaggregation Analysis: An Overview of Methodological Advances and Applications

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