Alireza Naderi scite author profile

SUMMARYIn this study, an arbitrary Lagrangian-Eulerian (ALE) approach is incorporated with a mixed finitevolume-element (FVE) method to establish a novel moving boundary method for simulating unsteady incompressible flow on non-stationary meshes. The method collects the advantages of both finite-volume and finite-element (FE) methods as well as the ALE approach in a unified algorithm. In this regard, the convection terms are treated at the cell faces using a physical-influence upwinding scheme, while the diffusion terms are treated using bilinear FE shape functions. On the other hand, the performance of ALE approach is improved by using the Laplace method to improve the hybrid grids, involving triangular and quadrilateral elements, either partially or entirely. The use of hybrid FE grids facilitates this achievement. To show the robustness of the unified algorithm, we examine both the first-and the second-order temporal stencils. The accuracy and performance of the extended method are evaluated via simulating the unsteady flow fields around a fixed cylinder, a transversely oscillating cylinder, and in a channel with an indented wall. The numerical results presented demonstrate significant accuracy benefits for the new hybrid method on coarse meshes and where large time steps are taken. Of importance, the current method yields the second-order temporal accuracy when the second-order stencil is used to discretize the unsteady terms.

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Sparsity-Free Compressed Sensing With Applications to Generative Priors

Naderi

Plan

2022

IEEE J. Sel. Areas Inf. Theory

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Optimal Spline Generators for Derivative Sampling

Aziznejad

Naderi

Unser

2019

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The goal of derivative sampling is to reconstruct a signal from the samples of the function and of its first-order derivative. In this paper, we consider this problem over a shiftinvariant reconstruction subspace generated by two compactsupport functions. We assume that the reconstruction subspace reproduces polynomials up to a certain degree. We then derive a lower bound on the sum of supports of its generators. Finally, we illustrate the tightness of our bound with some examples.

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Plebeius afshar tandurehensis n. ssp. dans le nord-est de l'Iran (Lep., Lycaenidae)

Carbonell¹,

Naderi²

2002

bsef

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Alireza Naderi

Multiblock hybrid grid finite volume method to solve flow in irregular geometries

Developing a unified FVE‐ALE approach to solve unsteady fluid flow with moving boundaries

Sparsity-Free Compressed Sensing With Applications to Generative Priors

Optimal Spline Generators for Derivative Sampling

Plebeius afshar tandurehensis n. ssp. dans le nord-est de l'Iran (Lep., Lycaenidae)

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