Numerical treatment of two‐parameter singularly perturbed parabolic convection diffusion problems with non‐smooth data

Chandru, M.; Das, P. C.; Ramos, Higinio

doi:10.1002/mma.5067

Cited by 112 publications

(49 citation statements)

References 31 publications

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“…We have provided sufficient conditions under which the present model problem has a unique solution. In addition, we have considered a semi-analytical approach that can be considered as an alternative to other approaches presented in several works, [9][10][11][12][13] based on the homotopy perturbation technique to approximate the solutions of the model equations.…”

Section: Resultsmentioning

confidence: 99%

“…Here, we are interested in obtaining the solution of fractional nonlinear integro-differential equations by using semi-analytical homotopy-based perturbation methods. [6][7][8] This approach makes the approximation simple for complicated models and can be considered as an alternative way to avoid the numerical discretizations provided in other works [9][10][11][12][13][14][15] for perturbation problems. Furthermore, the present method is not only an effective tool for approximation of the solution but it can also provide the exact solution of certain problems.…”

Section: Introductionmentioning

confidence: 99%

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Homotopy perturbation method for solving Caputo‐type fractional‐order Volterra‐Fredholm integro‐differential equations

Das

Rana

Ramos

2019

Comp and Math Methods

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This work considers the solution of fractional Volterra‐Fredholm integro‐differential equations. Here, we consider the approximation of the solution based on semi‐analytical approaches. We use the homotopy perturbation method approach for this purpose. It is observed through different examples that the adopted strategy is not only an effective tool for approximation of the solution but also can lead to the exact solution of certain problems.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Homotopy perturbation method for solving Caputo‐type fractional‐order Volterra‐Fredholm integro‐differential equations

Das

Rana

Ramos

2019

Comp and Math Methods

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“…Mathematical treatment of epidemics has its origins more than a century ago 1,2 . The recent interest in modeling epidemics was rekindled with the onset of the severe acute respiratory syndrome (SARS) epidemics during the early part of the century 3 .…”

Section: Using Epidemic Simulators For Monitoring An Ongoing Epidemicmentioning

confidence: 99%

Using epidemic simulators for monitoring an ongoing epidemic

Raghavan¹,

Sridharan²,

Rangayyan³

2020

Sci Rep

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Prediction of infection trends, estimating the efficacy of contact tracing, testing or impact of influx of infected are of vital importance for administration during an ongoing epidemic. Most effective methods currently are empirical in nature and their relation to parameters of interest to administrators are not evident. We thus propose a modified SEIRD model that is capable of modeling effect of interventions and inward migrations on the progress of an epidemic. The tunable parameters of this model bear relevance to monitoring of an epidemic. This model was used to show that some of the commonly seen features of cumulative infections in real data can be explained by piecewise constant changes in interventions and population influx. We also show that the data of cumulative infections from twelve Indian states between mid March and mid April 2020 can be generated from the model by applying interventions according to a set of heuristic rules. Prediction for the next ten days based on this model, reproduced real data very well. In addition, our model also reproduced the time series of recoveries and deaths. Our work constitutes an important first step towards an effective dashboard for the monitoring of epidemic by the administration, especially in an Indian context.

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“…Note: Algorithms have been produced lately to solve ODEs and PDEs by moving grids, the latest papers which show its effectiveness can be read in [19], [20], [21], [22], [23], [24], [32] and [33]. These references provide the technique that show the moving mesh algorithm and the discrete problem can be patched up to find the solution on adaptive mesh.…”

Section: Numerical Grid Generationmentioning

confidence: 99%

Optimal Control Approach to Image Registration

Salako¹

2018

ujam

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We discuss the orthogonality problem of moving grids, where we minimize a cost function with a regularization term and improve the orthogonality of grids by making the angle between grids close to 90  .The initial grid used is obtained by a well-established method known as the grid deformation method. We will then replace the cost function in the orthogonality problem with sum of squared differences (SSD) to discuss the image registration problem. We will discuss the non-uniqueness of solutions, existence of optimal solutions and prove the existence of Lagrange multipliers of the image registration problem using the Direct Method in Calculus of Variation and then derive an optimality system based on the construction of a Lagrangian functional from which optimal transformations can be calculated.

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Numerical treatment of two‐parameter singularly perturbed parabolic convection diffusion problems with non‐smooth data

Cited by 112 publications

References 31 publications

Homotopy perturbation method for solving Caputo‐type fractional‐order Volterra‐Fredholm integro‐differential equations

Homotopy perturbation method for solving Caputo‐type fractional‐order Volterra‐Fredholm integro‐differential equations

Using epidemic simulators for monitoring an ongoing epidemic

Optimal Control Approach to Image Registration

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