Fractional order ecological system for complexities of interacting species with harvesting threshold in imprecise environment

Khan, Nasir; Razzaq, Oyoon Abdul; Mondal, Sankar Prasad; Rubbab, Qammar

doi:10.1186/s13662-019-2331-x

Cited by 17 publications

(7 citation statements)

References 33 publications

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“…To solve for the above ordinary differential dynamical system, we need to give an explicit and multi-step discrete numerical scheme. We select a two-step eccentric scheme, called Admas-Bashforth scheme ( Beeman, 1976 ), This method is widely used in disease spread, physics, and biology research to make correction of the time-series changes for one variable ( Xiao et al, 2009 ; Khan et al, 2019 ; Kumar et al, 2020 ).

where

is the time difference, which is defined as one day in our model.…”

Section: Methodology and Datamentioning

confidence: 99%

Measuring imported case risk of COVID-19 from inbound international flights --- A case study on China

Zhang

Yang

Wang

et al. 2020

Journal of Air Transport Management

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With COVID-19 spreading around the world, many countries are exposed to the imported case risk from inbound international flights. Several governments issued restrictions on inbound flights to mitigate such risk. But with the pandemic controlled in many countries, some decide to reopen the economy by relaxing the international air travel bans. As the virus has still been prevailing in many regions, this relaxation raises the alarm to import overseas cases and results in the revival of local pandemic. This study proposes a risk index to measure one country's imported case risk from inbound international flights. The index combines both daily dynamic international air connectivity data and the updated global COVID-19 data. It can measure the risk at the country, province and even specific route level. The proposed index was applied to China, which is the first country to experience and control COVID-19 pandemic while later becoming exposed to high imported case risk after the epidemic centers switched to Europe and the US afterward. The calculated risk indexes for each Chinese province or region show both spatial and temporal patterns from January to April 2020. It is found that China's strict restriction on inbound flights since March 26 was very effective to cut the imported case risk by half than doing nothing. But the overall index level kept rising because of the deteriorating pandemic conditions around the world. Hong Kong and Taiwan are the regions facing the highest imported case risk due to their superior international air connectivity and looser restriction on inbound flights. Shandong Province had the highest risk in February and early March due to its well-developed air connectivity with South Korea and Japan when the pandemic peaked in these two countries. Since mid-March, the imported case risk from Europe and the US dramatically increased. Last, we discuss policy implications for the relevant stakeholders to use our index to dynamically adjust the international air travel restrictions. This risk index can also be applied to other contexts and countries to relax restrictions on particular low-risk routes while still restricting the high-risk ones. This would balance the essential air travels need and the requirement to minimize the imported case risk.

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where

is the time difference, which is defined as one day in our model.…”

Section: Methodology and Datamentioning

confidence: 99%

Measuring imported case risk of COVID-19 from inbound international flights --- A case study on China

Zhang

Yang

Wang

et al. 2020

Journal of Air Transport Management

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show abstract

“…Derivatives of fractional order, with their nonlocal property can be applied both in technical and applied sciences. Mathematical modelling has entered an exciting phase primarily due to fractional calculus which is effective in modelling various phenomena often arising in physics, engineering, biology and scientific fields namely synchronization of chaotic systems [19,36], anomalous diffusion [33], models to analyse the spread and control of diseases [10,30,31], models to study the interaction of species in ecology [27], control theory [17], non-linear oscillation of earthquake [29], blood flow problems [34], etc.…”

Section: Introductionmentioning

confidence: 99%

Stability Analysis of a Fractional Order Discrete Anti-Periodic Boundary Value Problem

2021

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This article aims at investigating stability properties for a class of discrete fractional equations with anti-periodic boundary conditions of fractional order δ ∈ (3, 4]. Utilizing contraction mapping principle and fixed point theorem due to Brouwer [2], new criteria for the uniqueness and existence of the solutions are developed and two types of Ulam stability are analyzed. The theoretical outcomes are corroborated with examples.

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“…We note that systems (linear and non-linear) of fractional ordinary equations and partial differential equations have rich applications and are used in modeling of various processes arising in modern science and engineering. For example, they are used in modeling of processes in biosystems [8,26,10], ecology [15,25], epidemiology [33,13], etc.…”

Section: Introductionmentioning

confidence: 99%

An inverse problem of determining the orders of systems of fractional pseudo-differential equations

Ashurov¹,

Umarov²

2021

Preprint

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As it is known various dynamical processes can be modeled through the systems of time-fractional order pseudo-differential equations. In the modeling process one frequently faces with determining adequate orders of time-fractional derivatives in the sense of Riemann-Liouville or Caputo. This problem is qualified as an inverse problem. The right (vector) order can be found utilizing the available data. In this paper we consider this inverse problem for linear systems of fractional order pseudo-differential equations. We prove that the Fourier transform of the vectorsolution U (t, ξ) evaluated at a fixed time instance, which becomes possible due to the available data, recovers uniquely the unknown vector-order of the system of governing pseudo-differential equations.

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Fractional order ecological system for complexities of interacting species with harvesting threshold in imprecise environment

Cited by 17 publications

References 33 publications

Measuring imported case risk of COVID-19 from inbound international flights --- A case study on China

Measuring imported case risk of COVID-19 from inbound international flights --- A case study on China

Stability Analysis of a Fractional Order Discrete Anti-Periodic Boundary Value Problem

An inverse problem of determining the orders of systems of fractional pseudo-differential equations

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